==>runtrx start: date: Fri Jan 24 05:14:51 EST 2025 ( mccune001.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = ST40.24 ==========(runtrx)====================== date: Fri Jan 24 05:14:51 EST 2025 ( mccune001.pppl.gov ) args: 00425I19 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Fri Jan 24 05:14:51 EST 2025 ( mccune001.pppl.gov ) --> copy_expert_for: standard expert source copied to: 00425I19ex.for --> copy_expert_for: up-to-date expert object copied to: 00425I19ex.o **** uplink 00425I19tr nolib check_xlibvars: setenv L_NAG (null) check_xlibvars: setenv L_MDESCR (null) check_xlibvars: setenv LMPI_FRANTIC(null) make: `/local/tr_xzhang/transp_compute/ST40/00425I19/00425I19ex.o' is up to date. csh -f /local/tr_xzhang/transp_compute/ST40/00425I19/00425I19tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Fri Jan 24 05:18:36 EST 2025 ( mccune001.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 00425I19 %shell_server_exec: dir0 = /local/tr_xzhang/transp_compute/ST40/00425I19 %shell_server_exec: dirN = /local/tr_xzhang/transp_compute/ST40/00425I19 %shell_server_exec: testfile = 00425I19_20392_test.dat %shell_server_exec: not a parallel file system, did not find mccune002.pppl.gov:/local/tr_xzhang/transp_compute/ST40/00425I19/00425I19_20392_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/mccune001/tr_xzhang/transp_compute/ST40/00425I19/00425I19TR.EXE 00425I19 ... %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_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 %initcpl: MDS_CACHE enabled. %trmpi_openlog: LOGFILE_LEVEL = warn DATE: Fri Jan 24 05:18:40 2025 TRANSP Version: 24.0.1 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2023/10/21 %splitn_module: update block detected, t= 40.0000000000000 namelist elements assigned the same value more than once: DTBEAM namelist element value field(s): decimal point(s) inserted: EDGENE DTECH TECHON TECHOFF POWECH FREQECH TZOOM XECECH PHECECH THETECH PHAIECH RFMODECH FE_OUTTIM TONICHA APROF_AXIS_VALUE_TER APROF_AXIS_VALUE_TI2 APROF_AXIS_VALUE_QPR TEEDGE[1] TIEDGE[1] ZECECH "[ ]" indicates warning pertaining to indicated update block. %NLIST: open namelist file00425I19TR.ZDA %trcom_static_box: loading static data %trgdat: NLBCCW= T from PH.CDF file %trgdat: NLJCCW= T from PH.CDF file %trcom_allocate: reallocate: RLIM_PTS %trcom_allocate: reallocate: YLIM_PTS %trgdat: NMOM= 16 %DATCHK_MPI: NBI_PSERVE = 1 %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: full equilibrium input DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC %DATCHK: NYXINV incremented to be odd: 101 161 %DATCHK: no ECH/ECCD, NLECH=F, %DATCHK: no Lower Hybrid, NLLH=F %DATCKICH: TORIC-5 solver, with numerical MHD equilibrium geometry. %DATCKICH: copy shared parameters to Antenna # 1 %DATCKICH: copy shared parameters to Antenna # 2 %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. *** He3 RF minority & He3 fusion product both present! %RF minority specie conflict allowed: NL_IGNORE_MINI_CONFLICTS=.TRUE. %LH_ONOFF: no LH on/off times found. %EC_ONOFF: no ECH on/off times found. %ICRF_ONOFF: ICRF on/off times (s): 4.0000E+01 1.0000E+02 %NB_ONOFF: no NBI on/off times found. ps_init_tag: Plasma State v3.000 f90 module initialization. AUXVAL-- INITITIALIZE shared data structures. %DATCKA: ACfile times pre-screen... arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init MCINIT: RANDOM NUMBER GEN INITIALIZED - 382418081 382418081 %tabort_update: no namelist TABORT requests after t= 38.0000000000000 AUXVAL: RESET DTMINT TO NUMERIC MINIMUM AUXVAL: RESET DTMINB TO NUMERIC MINIMUM AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM AUXVAL-- INITIALIZE TEMPERATURE AND DENSITY PROFILES AUXVAL-- GEOMETRY INITIALIZATION PART 2. GFRAM0: bdy curvature ratio OK at t= 3.8002E+01 seconds: 1.2920E-01 GFRAM0: bdy curvature ratio OK at t= 3.8000E+01 seconds: 1.2921E-01 % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 %treqbox_init_tr: clearing eqbox and loading tr attributes %treqbox_init_psirz: loading iso attributes for isolver psi(R,Z) analysis * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0180E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2921E-01 %get_rygrid: no grids for Psi(R,Y) %get_rygrid: no grids for Psi(R,Y) dmg_datbuf_expand call from dmgini_sized: isize= 0 ...reading TF.PLN header data... ----------------------- %frantic_sorce1 -- resolution increased: previous: 20 ; now: 50 minimum resolution = min(50,nzones) ----------------------- *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.79000E+01 CPU TIME= 5.55201E-01 SECONDS. DT= 1.28976E-04 %INITAL: pseudo time advanced to 3.790106E+01 %INITAL: pseudo time advanced to 3.790256E+01 %INITAL: pseudo time advanced to 3.790429E+01 %INITAL: pseudo time advanced to 3.790549E+01 %INITAL: pseudo time advanced to 3.790699E+01 %INITAL: pseudo time advanced to 3.790887E+01 %INITAL: pseudo time advanced to 3.791087E+01 %INITAL: pseudo time advanced to 3.791287E+01 %INITAL: pseudo time advanced to 3.791487E+01 %INITAL: pseudo time advanced to 3.791687E+01 %INITAL: pseudo time advanced to 3.791887E+01 %INITAL: pseudo time advanced to 3.792087E+01 % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.6780E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2921E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0090E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2920E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.79209E+01 CPU TIME= 5.44433E-01 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 3.792287E+01 %INITAL: pseudo time advanced to 3.792487E+01 %INITAL: pseudo time advanced to 3.792687E+01 %INITAL: pseudo time advanced to 3.792887E+01 %INITAL: pseudo time advanced to 3.793087E+01 %INITAL: pseudo time advanced to 3.793287E+01 %INITAL: pseudo time advanced to 3.793487E+01 %INITAL: pseudo time advanced to 3.793687E+01 %INITAL: pseudo time advanced to 3.793887E+01 %INITAL: pseudo time advanced to 3.794087E+01 % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.5980E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2921E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0200E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2920E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.79409E+01 CPU TIME= 5.42920E-01 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 3.794287E+01 %INITAL: pseudo time advanced to 3.794487E+01 %INITAL: pseudo time advanced to 3.794687E+01 %INITAL: pseudo time advanced to 3.794887E+01 %INITAL: pseudo time advanced to 3.795087E+01 %INITAL: pseudo time advanced to 3.795287E+01 %INITAL: pseudo time advanced to 3.795487E+01 %INITAL: pseudo time advanced to 3.795687E+01 %INITAL: pseudo time advanced to 3.795887E+01 %INITAL: pseudo time advanced to 3.796087E+01 % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.6360E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2921E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0100E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2920E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.79609E+01 CPU TIME= 5.44762E-01 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 3.796287E+01 %INITAL: pseudo time advanced to 3.796487E+01 %INITAL: pseudo time advanced to 3.796687E+01 %INITAL: pseudo time advanced to 3.796887E+01 %INITAL: pseudo time advanced to 3.797087E+01 %INITAL: pseudo time advanced to 3.797287E+01 %INITAL: pseudo time advanced to 3.797487E+01 %INITAL: pseudo time advanced to 3.797687E+01 %INITAL: pseudo time advanced to 3.797887E+01 %INITAL: pseudo time advanced to 3.798087E+01 % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.6340E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2921E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 38.000000 ; TG2= 38.002200 ; DTG= 2.200E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.9930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2920E-01 %get_rygrid: no grids for Psi(R,Y) *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.79809E+01 CPU TIME= 5.44748E-01 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 3.798287E+01 %INITAL: pseudo time advanced to 3.798487E+01 %INITAL: pseudo time advanced to 3.798687E+01 %INITAL: pseudo time advanced to 3.798887E+01 %INITAL: pseudo time advanced to 3.799087E+01 %INITAL: pseudo time advanced to 3.799287E+01 %INITAL: pseudo time advanced to 3.799487E+01 %INITAL: pseudo time advanced to 3.799687E+01 %INITAL: pseudo time advanced to 3.799887E+01 sce_equil_init: Equilibration feature not active (noption_equil <= 0 in namelist). fimain: call trmpi_group %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1 TA= 3.80000E+01 CPU TIME= 5.44793E-01 SECONDS. DT= 1.00000E-03 %check_save_state: SLURM_JOB_ID = 6775229 %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 = 3.722777777824149E-003 %check_save_state: izleft hours = 79.9169444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 3.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.896E+03 MB. --> plasma_hash("gframe"): TA= 3.800000E+01 NSTEP= 1 Hash code: 109542982 ->PRGCHK: bdy curvature ratio at t= 3.8001E+01 seconds is: 1.2920E-01 % MHDEQ: TG1= 38.000000 ; TG2= 38.001208 ; DTG= 1.208E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1530E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2920E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.000000 TO TG2= 38.001208 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 7.7117960872769D+04 GASFL called from sbrtn pbal GASFL called from sbrtn pbal arrays allocated in pt_nclass_data_init %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %nclass_driver: Allocating module variables %nclass_driver_mod: replacing geometry module variables in the ncbox %nclass_geometry: Deallocating module variables %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal %MFRCHK - LABEL "BALE0_SGF", # 100= -1.40283E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 62= 1.42552E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 62= 1.42550E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2 TA= 3.80010E+01 CPU TIME= 5.46180E-01 SECONDS. DT= 2.07729E-04 --> plasma_hash("gframe"): TA= 3.800121E+01 NSTEP= 3 Hash code: 8329152 ->PRGCHK: bdy curvature ratio at t= 3.8004E+01 seconds is: 1.2919E-01 % MHDEQ: TG1= 38.001208 ; TG2= 38.003861 ; DTG= 2.653E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0080E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2919E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.001208 TO TG2= 38.003861 @ NSTEP 3 GFRAME TG2 MOMENTS CHECKSUM: 7.7120424822616D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 4 TA= 3.80022E+01 CPU TIME= 5.47396E-01 SECONDS. DT= 1.00000E-03 --> plasma_hash("gframe"): TA= 3.800386E+01 NSTEP= 6 Hash code: 17170577 ->PRGCHK: bdy curvature ratio at t= 3.8010E+01 seconds is: 1.2915E-01 % MHDEQ: TG1= 38.003861 ; TG2= 38.009698 ; DTG= 5.837E-03 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3080E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2915E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.003861 TO TG2= 38.009698 @ NSTEP 6 GFRAME TG2 MOMENTS CHECKSUM: 7.7125845512282D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7 TA= 3.80049E+01 CPU TIME= 5.50000E-01 SECONDS. DT= 1.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11 TA= 3.80089E+01 CPU TIME= 5.52604E-01 SECONDS. DT= 8.36931E-04 --> plasma_hash("gframe"): TA= 3.800970E+01 NSTEP= 12 Hash code: 112377552 ->PRGCHK: bdy curvature ratio at t= 3.8022E+01 seconds is: 1.2907E-01 % MHDEQ: TG1= 38.009698 ; TG2= 38.022270 ; DTG= 1.257E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0110E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2907E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.009698 TO TG2= 38.022270 @ NSTEP 12 GFRAME TG2 MOMENTS CHECKSUM: 7.7137520843869D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 17 TA= 3.80147E+01 CPU TIME= 5.49980E-01 SECONDS. DT= 1.00000E-03 --> plasma_hash("gframe"): TA= 3.802227E+01 NSTEP= 25 Hash code: 55351125 ->PRGCHK: bdy curvature ratio at t= 3.8049E+01 seconds is: 1.2890E-01 % MHDEQ: TG1= 38.022270 ; TG2= 38.048810 ; DTG= 2.654E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0380E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2890E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.022270 TO TG2= 38.048810 @ NSTEP 25 GFRAME TG2 MOMENTS CHECKSUM: 7.7162168766109D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 25 TA= 3.80223E+01 CPU TIME= 5.43904E-01 SECONDS. DT= 1.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 35 TA= 3.80323E+01 CPU TIME= 5.52302E-01 SECONDS. DT= 1.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 48 TA= 3.80453E+01 CPU TIME= 5.59348E-01 SECONDS. DT= 1.00000E-03 --> plasma_hash("gframe"): TA= 3.804881E+01 NSTEP= 52 Hash code: 68241779 ->PRGCHK: bdy curvature ratio at t= 3.8105E+01 seconds is: 1.2854E-01 % MHDEQ: TG1= 38.048810 ; TG2= 38.105209 ; DTG= 5.640E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0170E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2854E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.048810 TO TG2= 38.105209 @ NSTEP 52 GFRAME TG2 MOMENTS CHECKSUM: 7.7214545600869D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64 TA= 3.80612E+01 CPU TIME= 5.45378E-01 SECONDS. DT= 1.10000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81 TA= 3.80817E+01 CPU TIME= 5.44059E-01 SECONDS. DT= 1.33100E-03 --> plasma_hash("gframe"): TA= 3.810521E+01 NSTEP= 98 Hash code: 13517467 ->PRGCHK: bdy curvature ratio at t= 3.8204E+01 seconds is: 1.2793E-01 % MHDEQ: TG1= 38.105209 ; TG2= 38.203907 ; DTG= 9.870E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0640E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2793E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.105209 TO TG2= 38.203907 @ NSTEP 98 GFRAME TG2 MOMENTS CHECKSUM: 7.7306205061698D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 100 TA= 3.81084E+01 CPU TIME= 5.49276E-01 SECONDS. DT= 1.61051E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 122 TA= 3.81440E+01 CPU TIME= 5.45204E-01 SECONDS. DT= 1.94872E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 145 TA= 3.81893E+01 CPU TIME= 5.49851E-01 SECONDS. DT= 2.00000E-03 --> plasma_hash("gframe"): TA= 3.820391E+01 NSTEP= 153 Hash code: 1490116 ->PRGCHK: bdy curvature ratio at t= 3.8303E+01 seconds is: 1.2733E-01 % MHDEQ: TG1= 38.203907 ; TG2= 38.302604 ; DTG= 9.870E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0550E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2733E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.203907 TO TG2= 38.302604 @ NSTEP 153 GFRAME TG2 MOMENTS CHECKSUM: 7.7397864522528D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 179 TA= 3.82559E+01 CPU TIME= 5.45399E-01 SECONDS. DT= 2.00000E-03 --> plasma_hash("gframe"): TA= 3.830260E+01 NSTEP= 203 Hash code: 77244197 ->PRGCHK: bdy curvature ratio at t= 3.8401E+01 seconds is: 1.2676E-01 % MHDEQ: TG1= 38.302604 ; TG2= 38.401302 ; DTG= 9.870E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0620E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2676E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.302604 TO TG2= 38.401302 @ NSTEP 203 GFRAME TG2 MOMENTS CHECKSUM: 7.7489523983358D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 225 TA= 3.83466E+01 CPU TIME= 5.44757E-01 SECONDS. DT= 2.00000E-03 --> plasma_hash("gframe"): TA= 3.840130E+01 NSTEP= 253 Hash code: 88011336 ->PRGCHK: bdy curvature ratio at t= 3.8500E+01 seconds is: 1.2616E-01 % MHDEQ: TG1= 38.401302 ; TG2= 38.500000 ; DTG= 9.870E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0390E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2616E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.401302 TO TG2= 38.500000 @ NSTEP 253 GFRAME TG2 MOMENTS CHECKSUM: 7.7581183444187D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 284 TA= 3.84633E+01 CPU TIME= 5.51101E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 100= 2.61527E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.24615E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 100= 1.27093E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.24614E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 100= 1.34434E-38 RESET TO ZERO fimain: call trmpi_group %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 303 TA= 3.85000E+01 CPU TIME= 5.44714E-01 SECONDS. DT= 7.67537E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 4.727388888898076E-002 %check_save_state: izleft hours = 79.8733333333333 --> plasma_hash("gframe"): TA= 3.850000E+01 NSTEP= 303 Hash code: 29614177 ->PRGCHK: bdy curvature ratio at t= 3.8643E+01 seconds is: 1.2480E-01 % MHDEQ: TG1= 38.500000 ; TG2= 38.642857 ; DTG= 1.429E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4010E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2480E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.500000 TO TG2= 38.642857 @ NSTEP 303 GFRAME TG2 MOMENTS CHECKSUM: 7.7713853208675D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 354 TA= 3.85942E+01 CPU TIME= 5.45835E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 355 TA= 3.85962E+01 CPU TIME= 5.46016E-01 SECONDS. DT= 2.00000E-03 --> plasma_hash("gframe"): TA= 3.864286E+01 NSTEP= 379 Hash code: 52126472 ->PRGCHK: bdy curvature ratio at t= 3.8929E+01 seconds is: 1.2228E-01 % MHDEQ: TG1= 38.642857 ; TG2= 38.928571 ; DTG= 2.857E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0230E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2228E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.642857 TO TG2= 38.928571 @ NSTEP 379 GFRAME TG2 MOMENTS CHECKSUM: 7.7979192737651D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 386 TA= 3.86569E+01 CPU TIME= 5.43997E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 499 TA= 3.88829E+01 CPU TIME= 5.44507E-01 SECONDS. DT= 2.00000E-03 --> plasma_hash("gframe"): TA= 3.892857E+01 NSTEP= 522 Hash code: 60656561 ->PRGCHK: bdy curvature ratio at t= 3.9500E+01 seconds is: 1.1788E-01 % MHDEQ: TG1= 38.928571 ; TG2= 39.500000 ; DTG= 5.714E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1370E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1788E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 38.928571 TO TG2= 39.500000 @ NSTEP 522 GFRAME TG2 MOMENTS CHECKSUM: 7.8509871795603D+04 %MFRCHK - LABEL "CFTCX_GFD", # 43= 1.31129E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 43= 1.31128E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 649 TA= 3.91826E+01 CPU TIME= 5.45178E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "CFTCX_GFD", # 41= 1.19798E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 41= 1.19797E-38 RESET TO ZERO fimain: call trmpi_group %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 808 TA= 3.95000E+01 CPU TIME= 5.43505E-01 SECONDS. DT= 1.57143E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.107281666666665 %check_save_state: izleft hours = 79.8133333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 3.9500000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.100E+03 MB. --> plasma_hash("gframe"): TA= 3.950000E+01 NSTEP= 808 Hash code: 91156979 ->PRGCHK: bdy curvature ratio at t= 4.0000E+01 seconds is: 1.1325E-01 % MHDEQ: TG1= 39.500000 ; TG2= 40.000000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4720E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1325E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 39.500000 TO TG2= 40.000000 @ NSTEP 808 GFRAME TG2 MOMENTS CHECKSUM: 7.8974215971310D+04 %MFRCHK - LABEL "BALE0_SGF", # 100= 1.62623E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 40= 1.24189E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 40= 1.24188E-38 RESET TO ZERO % SZOOM - TIMESTEP ZOOM IN AT T= 4.0000E+01 % --> DTMAXT RESET FROM 2.0000E-03 TO 1.0000E-04 % --> DTMAXB RESET FROM 2.0000E-03 TO 1.0000E-04 % --> DTCONM RESET FROM 5.0000E-03 TO 5.0000E-04 % --> DT_SOURCES RESET FROM 1.0000E+00 TO 5.0000E-02 (includes DTBEAM) % --> DTMAXG RESET FROM 1.0000E+00 TO 5.0000E-02 % --> SEDIT RESET FROM 5.0000E-01 TO 5.0000E-02 % --> STEDIT RESET FROM 5.0000E-01 TO 2.0000E-02 % --> NPTCLS RESET FROM 16000 TO 64000 %splitn_update_check: writing update: 00425I19TR.TMP @ t= 40.0000000000000 -------------------------------- Namelist update: 00425I19TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 2.50000000E+13 to 1.00000000E+14 namelist update changed APROF_DT_TRANSITION_NER from 1.00000000E+00 to 5.00000000E+01 namelist update changed APROF_EDGE_VALUE_NER from 1.00000000E+13 to 2.00000000E+13 namelist update changed TEEDGE from 1.00000000E+02 to 2.00000000E+02 namelist update changed TIEDGE from 1.00000000E+02 to 5.00000000E+02 ==> subroutine datchk_update: check namelist updates... %DATCKA: ACfile times pre-screen... fimain: call trmpi_group => tr_rfprep: TORIC_MPI detected setting zgrid%ncpu = 32 and zgrid%ncptype = 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.90261800000002 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8665E+00 8.4376E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.7 cm.B= 3.1485E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %fpwrnml: starting file: 00425I19FPPRF.DATA %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13514 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.573E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1059 TA= 4.00000E+01 CPU TIME= 5.50835E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.191788333333363 %check_save_state: izleft hours = 79.7288888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 3.311E+03 MB. --> plasma_hash("gframe"): TA= 4.000000E+01 NSTEP= 1059 Hash code: 52534162 ->PRGCHK: bdy curvature ratio at t= 4.0050E+01 seconds is: 1.1308E-01 % MHDEQ: TG1= 40.000000 ; TG2= 40.050000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5440E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1308E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.000000 TO TG2= 40.050000 @ NSTEP 1059 GFRAME TG2 MOMENTS CHECKSUM: 7.8985154444303D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1079 TA= 4.00020E+01 CPU TIME= 5.47624E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1096 TA= 4.00037E+01 CPU TIME= 5.46425E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1115 TA= 4.00056E+01 CPU TIME= 5.45582E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1136 TA= 4.00077E+01 CPU TIME= 5.49608E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1159 TA= 4.00100E+01 CPU TIME= 5.45446E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1185 TA= 4.00126E+01 CPU TIME= 5.46126E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1214 TA= 4.00155E+01 CPU TIME= 5.51477E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1248 TA= 4.00189E+01 CPU TIME= 5.48998E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1287 TA= 4.00228E+01 CPU TIME= 5.45961E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1331 TA= 4.00272E+01 CPU TIME= 5.44758E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1381 TA= 4.00322E+01 CPU TIME= 5.51180E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1438 TA= 4.00379E+01 CPU TIME= 5.46456E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1503 TA= 4.00444E+01 CPU TIME= 5.46632E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "QRFBTOT", # 40= -4.29139E-38 RESET TO ZERO %MFRCHK - LABEL "PWAVMIN_3", # 40= -4.29139E-38 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 55= -7.56282E-38 RESET TO ZERO %MFRCHK - LABEL "QICHMIN", # 40= -4.29139E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 96= 1.55213E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 16= 1.23612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 99= -1.91950E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 16= 1.23612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 99= -1.90113E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.471E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.81672900000001 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8667E+00 8.4377E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.7 cm.B= 3.1485E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13508 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.34619713458979 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.09841144269298 at nshe,nfasti = 46 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 46 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.32740468925847 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.70018594656369 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.07760223646562 at nshe,nfasti = 46 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 46 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.45961451887559 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26386212742313 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.09840747572961 at nshe,nfasti = 45 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 45 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.490E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.578E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.42937636903821 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03683203418951 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.364659534394917 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16548276991998 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.323976918819406 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 cpu time (sec) in nubeam_ctrl_init: 4.8540E-03 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 0 ==> entering nubeam_step_child, mpi myidd = 0 nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.7940E+22 nbi_getprofiles ne*dvol sum (ions): 1.7940E+22 nbstart... % nbi_alloc2_init: nbi_alloc2 done % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %fi_finish: enter %fimain: eflux cpu time = 7.000000096013537E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1559 TA= 4.00500E+01 CPU TIME= 8.19524E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.378060000000033 %check_save_state: izleft hours = 79.5425000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0050000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.463E+03 MB. --> plasma_hash("gframe"): TA= 4.005000E+01 NSTEP= 1559 Hash code: 43346018 ->PRGCHK: bdy curvature ratio at t= 4.0100E+01 seconds is: 1.1292E-01 % MHDEQ: TG1= 40.050000 ; TG2= 40.100000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4950E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1292E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.050000 TO TG2= 40.100000 @ NSTEP 1559 GFRAME TG2 MOMENTS CHECKSUM: 7.8996092917295D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1714 TA= 4.00655E+01 CPU TIME= 8.13058E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1885 TA= 4.00826E+01 CPU TIME= 8.19130E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 99= -1.85549E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 5= 1.20152E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 100= -1.91058E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 5= 1.20152E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 100= -1.46968E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.473E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.75778400000013 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8669E+00 8.4378E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.81773038735449 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13447304257101 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13504 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.692E-03 -- reset to 5.000E-03 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.87404819433764 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35905858172119 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.260394381370195 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08749258855159 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.192005312022470 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.67059701065530 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.32831401728891 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.15899698380177 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15966153852362 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.29624107504680 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.17788533049678 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.52041058910383 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22496699015054 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.72607231997327 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.29216770187831 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.89604054811671 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.57478794302654 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.37346181751241 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.09549402420805 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.16371058730561 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43896816049387 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.37996825516238 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.17762829985215 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.49048858678971 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.74587048440494 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88813198822125 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54137315699560 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.00133885055424 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.80220149300213 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.59687401095253 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.24448324387150 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.37317544473630 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.64507071121606 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.40883863168834 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19661536902115 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.69492541219383 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.51691864447715 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.73918479335976 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.58112992848505 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78244086102717 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.66120020207699 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.81247508152564 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.01707349826254 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.78566227056165 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.83415041321643 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.03591435327921 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.98302379413033 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84855842690420 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.05393784707291 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00443858894842 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.24841315595623 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.85731152916887 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.07115851311177 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02210452710963 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.61757030437528 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.86401052833722 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.08782487315469 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03940972131288 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.87250722760842 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.10489635521536 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05624937057846 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.481419987844341 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88909659516315 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12011271616949 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.07264630260914 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.434731785706296 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.91315233788661 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.13523894045795 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.08863899259482 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.404488148451417 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94003748030867 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14977366703580 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.10446299198175 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.381657806367425 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96638722443132 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.16441831410465 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.12010677308382 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.375811493055949 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.99239458050496 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.17765849234122 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13525913075013 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.363912633814356 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.01644742637653 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.18908460765138 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14947189036471 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.363425321353322 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.03816456757873 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20171776029601 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16386798353297 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 43 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.360385157280270 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05932038093963 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21210044251780 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17739041873265 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.92075214888733 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.357538026006371 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07884893785748 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22096132105748 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.19007078149040 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.495E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.80158628529007 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.353573623623347 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09664536597702 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22892342285109 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.20194001340773 at nshe,nfasti = 47 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2059 TA= 4.01000E+01 CPU TIME= 8.20597E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.865735000000001 %check_save_state: izleft hours = 79.0550000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0100000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.592E+03 MB. --> plasma_hash("gframe"): TA= 4.010000E+01 NSTEP= 2059 Hash code: 118317866 ->PRGCHK: bdy curvature ratio at t= 4.0150E+01 seconds is: 1.1276E-01 % MHDEQ: TG1= 40.100000 ; TG2= 40.150000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4820E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1276E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.100000 TO TG2= 40.150000 @ NSTEP 2059 GFRAME TG2 MOMENTS CHECKSUM: 7.9007031390288D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2250 TA= 4.01191E+01 CPU TIME= 8.17763E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2450 TA= 4.01391E+01 CPU TIME= 8.13744E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 95= 1.28588E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 2.98758E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 98= -1.31343E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.98757E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 98= -1.24914E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.84802500000023 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8671E+00 8.4380E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.22317128706446 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.67575951995379 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.487663481972601 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05998702055436 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.86747910232722 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48258673909822 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.34062388668260 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.27571652919830 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.00962470702038 at nshe,nfasti = 48 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13502 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -29.6025944692940 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -80.0561754587291 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -196.933802435804 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -637.737515690920 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 42 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 42 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 42 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 42 %fp_imp warning: RF renorm adjust = 6.46704010220154 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.65586709504639 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.450841219523332 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88816857712697 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06490209985223 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.57203925260975 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.46564737284379 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.41433869869968 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09638569274850 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.64887656951193 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.73777272428163 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.468617317188189 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.95593324281197 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09935333508763 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.55023980090874 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.44822154010541 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.42284257172863 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08216909393877 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.72559290477483 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.77924339719358 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.466931712791855 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96762290909101 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.14160418297334 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.55260981818352 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.44764891571272 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.42450447876752 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06606484541983 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.78324166580690 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.81112182797932 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.461943042745135 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96628810100152 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.18998915857017 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.56759518527408 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.45342772088527 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.42463326153704 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.05125173961520 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.04950769660475 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95544897013119 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.469816730934972 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11216064706668 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.52000410947600 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.488137070847251 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.85169833863588 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.68064179936244 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58660317444535 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.17167903709851 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.09572064447068 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.98735630593181 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.466891320088808 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11427759598974 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.53040340153101 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.478617318403827 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.83381126073659 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.66375522945822 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58179538017583 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.15877985577554 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.09626136631381 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.98704017096208 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462493351574167 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09518754449557 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.55370817855915 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.00803443056829 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.469695911787380 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.84814784277341 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.67291924087553 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58181290696121 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.14823290711192 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.08789470414529 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.98137952860525 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.458055186993615 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07263308176054 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.57562365720056 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.02273376896666 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.466782043511724 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.86063057869151 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.68145279496676 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58176324374910 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.13876661714416 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.28167857771573 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.08686451347285 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.473102581138578 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.21978915079127 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.68721938004792 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.09483815199656 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.92966390340760 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76495878382638 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67880443986052 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.21561032097208 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.34377896482377 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.12752501505736 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.469575820759083 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.22328205087341 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.70223261365203 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.10522013816997 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.495003471546238 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.93543679017093 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.75985691156482 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67600270732603 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.20708742669366 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.35382916253869 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.13292008326320 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.465862172284900 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.20885046623413 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71758673442350 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11584893139471 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.491363353752888 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.94199865292305 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76564719744019 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67546419577215 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.19985343638789 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.34995011650303 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.12997089233727 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462252733131925 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.19018206640858 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.73024338923110 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12446672239932 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.488319177444881 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.94815833871043 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76998011859027 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67439902629026 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.19303433337364 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.51522817496137 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.22007417725688 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.478530263095100 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.32827146248332 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.82509779912901 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.18530650999459 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01662875016596 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.83530527655948 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.74947672771200 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.25204771862627 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.55208632251554 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.24593392493273 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.474337005165123 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.32306417201006 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.83878048048143 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19332925922478 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.02178969759706 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82937612431628 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.74620072883909 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.24554392112432 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.54749559423402 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.24282829486735 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.470593068149990 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30361611952851 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.84590751689097 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19785450051490 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.02414703583432 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.83192319112571 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.74468377662007 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.23988001455032 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.53249106991254 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.23335252107924 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467096616024136 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.28125069030220 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.85153482674741 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20155130109997 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.02618848673613 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.83308024840672 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.74266023418575 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.23438591734074 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.51320011356356 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.22127546482551 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.463708422324241 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.25759305726413 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.85560966125376 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20430819335692 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.02753961157113 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.83344798476333 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.74022383821562 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.22906405057009 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.69154764634320 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31905846309005 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.484663217346097 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.42380859760675 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94836303861143 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26319176562277 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.09804683836197 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.90351097387013 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.81952484006799 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.28984335475621 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.72302352392023 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.34326522824162 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.480268394457592 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.41702188567830 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95748496543803 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26729218680383 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.10343612913680 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.89605983924417 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.81513319883473 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.28432592150560 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.71193833222590 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.33639262281890 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.476623147643793 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.39525963726005 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95976744543796 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26846384781642 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.10259871687678 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.89619615443258 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.81279589557659 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.27964477107070 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.69099077487606 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.32337672250801 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.473311002232006 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.37094294812038 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96103540828722 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26928530253046 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.10168409853040 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.89504869907207 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.81003380475233 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.27508904034832 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.66646020595412 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30816267245437 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.470120173887127 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.34563816709710 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96084165346190 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26931746425917 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.10012960997379 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.89324763154260 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.80690650976985 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.27054460242373 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.82380726468009 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.39501730004776 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.493922099101302 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.51019757558605 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.04774634905946 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32337095875441 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.16805641403576 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95762698184925 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.87650846981629 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.32162063953094 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.83036576273796 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.40499539913724 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.488392441676101 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.49387093992903 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05783750456466 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32712807035004 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17649959674653 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95307949446427 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.87222257563597 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.31695384922226 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.80912834476709 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.39225838916104 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.484411140063755 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.46754332472571 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05553183780831 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32504146539506 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17313435590814 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95151490121465 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.86945307277054 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.31294021582277 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.78148888169111 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.37533339166459 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.480996265947891 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.44034673906542 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05305406006545 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32345668364173 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17018050209832 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.94904317433513 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.86627597314184 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.30892750540340 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.75215483948787 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.35731867304152 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.477792276357127 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.41310399881413 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.04949033623360 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32139705684261 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.16667678092002 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.94601040281964 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.86281149195030 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.30495527635446 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.72217268515641 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.33889791712691 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.474686001345212 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.38591338185294 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.04515899884922 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31897302442467 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.16274580407509 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.94260216190367 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.85914271369873 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.30103488275718 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.88598945056956 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43060926431691 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.54662609102615 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.13979407018314 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37896165146003 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.23450887795996 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01382760159917 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.93367047617430 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.35341185615400 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.87937264604757 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43227503799815 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.499409642384891 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.56033970333199 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.14654317045769 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37997995710699 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.24505428888472 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.00970735767419 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.92884301654347 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.34911546106693 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.86370028330015 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.42462315901111 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.494298481409059 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.53362398761034 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.14165241001648 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37615594538603 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.24004045663683 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.00696325374627 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.92586801440237 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.34561617647379 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.83769261233901 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.40883505317453 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.490719569815745 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.50663770747904 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.13767720481620 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37359289623404 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.23596760885017 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.00362677430180 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.92251531121098 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.34207923310591 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.80889676682623 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.39120951958764 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.487573775179525 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.47986001223456 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.13266658378050 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37059294389055 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.23133219765364 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.99979682949641 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.91890391181937 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.33855809904557 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.77953868335817 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.37320061218449 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.484602615389990 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.45340916596087 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.12705314586615 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.36737246225732 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.22628853281054 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.99566563469942 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.91512257146019 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.33506953016795 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.92099130636725 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.45314923015916 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.52099393937896 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.21587695690408 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42369298961974 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29420405333031 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.494934738297716 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.06199241313204 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.98189727142416 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.38008891544248 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.87381213077082 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.42590505958692 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.50101478914168 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.22614583487170 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42731551821531 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.30894777298444 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.06109206515089 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.97755299312712 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.37627192218660 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.83172469204420 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.40057871946389 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.48788253972580 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.22090201465614 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42319172550177 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.30210017037472 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.05749942849766 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.97449939534391 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.37314846302376 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.79704680168774 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.38022676706797 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.48283717403445 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.21638526040590 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42019207047159 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29801723035409 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.05372444711497 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.97112899252096 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.36998881747346 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.76889442375712 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.36428723337699 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.48505487386405 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.20975556986755 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41607335215320 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29296582264436 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.04951790540633 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.96753814026605 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.36683778807181 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.74733950226931 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.35272776093259 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.49409391242360 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.20168832170325 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41122191476182 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28732020787596 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.04502603813293 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.96380323774277 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.36371000142097 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.73235167388566 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.34546266238508 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.496481166939046 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.48155311145210 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.19255550064315 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40581685478083 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28115715233983 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.04030242252777 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.95996694416751 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.36061097608555 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.88352991208461 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43300665201971 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.45229280716963 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.28950159661037 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46658174296190 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.35230737807654 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.469603086094231 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.11210494746504 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.03008622344227 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.40623700989862 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.79817499166058 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.37805803772980 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.39095497744178 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31174836824596 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47786013944406 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.37721651538921 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.479073468479359 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.11434774850646 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.02605486867082 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.40282771481225 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.72605489898552 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.33250660113511 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.34477599365088 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30991026027380 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47610304644046 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.36989401052179 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.481182660198322 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.11027969418022 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.02311380014996 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.40009647436571 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.66491039603642 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29447700797507 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.31010090911830 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30870178032913 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47513384896491 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.36598933172500 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.483848038284329 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.10644791373663 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.01986941585387 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.39731765952784 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.61125185542333 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.26166195907746 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.28435966395464 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30461941168704 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47242888948818 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.36106091481163 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.486278546416802 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.10228648248965 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.01642820161783 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.39453665329631 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.56454047725405 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.23356859981807 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.26642693268334 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29862743674404 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46866173040197 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.35567898900282 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.488753300273743 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.09792936270818 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.01287806575699 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.39177149389918 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.52456930940945 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.20995705413306 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.25564736414377 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29103850273840 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46403084071881 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.34971729235882 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.491208217777015 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.09341420302139 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.00926367009966 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.38902977744457 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.49122196498921 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.19068359162151 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.25158509787542 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.28223266287155 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45874268086708 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.34333155347728 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.493672445558071 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.08877782091894 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.00560923014571 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.38631500149884 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57878653557390 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.24161884437690 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.19850647323204 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.38371103900153 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52042721017228 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.41531889511697 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.448087129654884 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.16335663009375 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.07697050352855 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.43078748623038 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.48195365526729 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.18167589666061 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.13532278155933 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.41044901664405 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53393625247872 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.44788909856779 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.455751367195385 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.16969929541359 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.07369046820165 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.42774151067980 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.40472247327536 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.13352659965340 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08480555768974 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.41033819155798 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53347127809948 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.44254857564562 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.458268732931273 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.16588548783025 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.07112037625726 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.42537473302750 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.33856408715645 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.09242204285697 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.04356383351453 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.41019827610605 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53331036566142 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.43914921836476 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.460603378870848 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.16231602668272 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.06820306525746 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.42295426415639 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.27879747069862 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05566504780758 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.00947878817456 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.40755558584439 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53167564484691 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.43525672322745 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.462720480081185 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.15848096363947 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.06507362006012 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.42052388948096 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.22478512535365 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.02278803486141 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.98177131245692 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.40304215217410 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52897721221815 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.43081651904420 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.464842437167750 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.15444680674033 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.06183137161969 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.41810243487093 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.17636375565774 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.99361229659443 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96001877677325 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.39701144923313 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52539097251100 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.42585390253109 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.467000719562959 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.15025856683131 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.05852377883025 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.41569793494786 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.13344971220418 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96803674053413 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94392398726384 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.38975072486710 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52101959776815 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.42042262673344 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.469156772453955 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.14594486373834 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.05517606469201 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.41331405785947 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.09595617001600 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94597396463101 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.93326889111893 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.38152588860532 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.51610710197824 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.41460101538318 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.471324813872253 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.14153392887082 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.05180330560326 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.41095264906386 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.06384526756470 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.92737419329385 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92790821818560 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.37249671687445 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.51074422382866 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.40842107160750 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.473500558240241 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.13703974703634 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.04841454826806 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.40861435109658 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.14619939694784 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.97581877364061 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.86014053672534 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.49858100897263 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58686997413725 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48985264171851 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.426722501173836 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22042238752671 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.12611920517314 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.45561671763953 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.03482743571901 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.90678879560862 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78446100781338 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.52117917296621 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59543369273254 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.52429597615546 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.433040696177779 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.23015086846244 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.12352139226846 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.45301490731723 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.95239908819571 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.85491311599490 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.72294201693243 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.52109364967064 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59527726292118 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.52124299512298 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.435320524271805 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22711550106941 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.12140786176748 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.45106937230976 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.88086435224412 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.80989627456762 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.66952378512546 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.52181166292088 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59581060375782 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.51887436739268 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.437165649566168 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22405953873688 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.11892676614809 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.44905901367731 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.81443876186991 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.76838589671604 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.62166282124816 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.52097563799282 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59538854085224 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.51604042128633 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.438823737983134 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22070557618391 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.11621180742002 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.44702704181230 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.75196181900929 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.72959569025554 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.57844201909842 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.51891462048916 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59425854593932 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.51280524846109 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.440487233572318 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.21715551218336 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.11337131659003 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.44499311327608 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.69320921963398 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.69331455125833 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53941104134087 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.51590704227101 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59257962692083 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.50918298110826 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.442194808146609 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.21346347370549 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.11046141706851 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.44296675694761 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.63806870650850 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.65941345805733 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.50426055164682 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.51208307255423 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59039803059960 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.50521718755992 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.443929799107599 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.20968048058527 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.10751447635492 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.44095315010350 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.58646853901625 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.62782493402486 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.47280748726388 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.50756065485750 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58777025683863 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.50095296679570 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.445721552817928 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.20582168472024 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.10454730057790 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.43895510223615 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.53838232141622 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.59851794409354 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.44491147808380 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.50238291505234 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58475633971687 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.49636496976671 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.447499105721610 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.20191061946252 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.10157195679986 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.43697404272806 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.49369156279477 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.57140626028245 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42048103295671 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.49666512714495 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58134864097171 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.49160057578508 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.449281484863543 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.19797836097117 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.09859665289003 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.43501079599137 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.500E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.50225566836159 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.57534560357939 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.36836537505040 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.63062091727198 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.66252959012887 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56296159120028 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.412885020553647 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.27506546905920 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.17022691599501 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.47682159852289 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.40432739696977 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.51706077189076 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.30709226378674 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.64490299027795 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.66362596269903 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.59211510382177 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.417738392540540 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.28539299410392 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.16793487882527 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.47452578052690 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.33254057969187 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.47263364390328 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25324969552426 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.63973578112838 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.66064016036344 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.59031939386556 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.419446955163169 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.28323285303476 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.16620776844924 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.47290630117980 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.26922908078459 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.43303069957561 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20292668870734 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.63801184883535 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.65976769985468 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.58876057924105 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.420817921794148 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.28090676179105 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.16414314460513 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.47121511379434 at nshe,nfasti = 48 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 1.999999767576810E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2559 TA= 4.01500E+01 CPU TIME= 8.18146E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.46708555555566 %check_save_state: izleft hours = 78.4536111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0150000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.331E+03 MB. --> plasma_hash("gframe"): TA= 4.015000E+01 NSTEP= 2559 Hash code: 122877330 ->PRGCHK: bdy curvature ratio at t= 4.0200E+01 seconds is: 1.1260E-01 % MHDEQ: TG1= 40.150000 ; TG2= 40.200000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5070E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1260E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.150000 TO TG2= 40.200000 @ NSTEP 2559 GFRAME TG2 MOMENTS CHECKSUM: 7.9017969863280D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2774 TA= 4.01715E+01 CPU TIME= 8.14385E-01 SECONDS. DT= 1.00000E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3014 TA= 4.01955E+01 CPU TIME= 8.13955E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 1= -1.55100E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 6.58579E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 99= -3.19606E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 6.58578E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 99= -3.60016E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.81218799999988 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8673E+00 8.4381E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.49772068965785 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11070608205371 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.406900550143833 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.32517484869978 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.436002516214160 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.356812908727452 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.94076128136869 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.360873786357254 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.44695146691941 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.77748918852247 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.218496683643647 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.39653988458065 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.178001079309823 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.02283178599709 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21880558792053 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.349168271843767 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.289795874592430 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.27488711745367 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.56673979585838 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.54443718401761 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06274624251881 at nshe,nfasti = 48 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13500 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17734363859962 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.36468802724648 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.84733363134467 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.39380392213006 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78860376656366 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23269740856942 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.88089113985092 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.37769216907130 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.495766779541622 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88102147307508 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.16705878933376 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.96825936845789 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35022574625596 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.481274203311467 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94268029692252 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14471268409747 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.04934044526732 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.32314771190626 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467373420202543 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.99151661022599 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.13372613549797 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.12121653127697 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.29711549970547 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.454605019856111 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.03499592151944 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12818144319787 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.18939804026301 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.27110291450370 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.442488422880038 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07676738990066 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12642348647382 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.24869186392672 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24590070934126 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.431070117646751 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11675616103033 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12684869043033 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.30617065270028 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22073392208694 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.420093119323627 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.15191367699238 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.00787130176655 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.12906533894552 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.35987961479092 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19561397956539 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.409415447565290 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.18504751005969 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.01882094649720 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13299352073692 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.40957838494404 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.17210267486340 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.399610040067816 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.21655112259618 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.02866108883247 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13737120810587 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.45939015445074 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.14980124929711 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.390235123746508 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.24932870838442 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.03818616030432 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14194246518065 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.50210741766732 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12787371137314 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.381588495919185 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.27799938065440 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.04658196278224 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14656366633150 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.82628205336008 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.54443226224961 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10652149637147 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.373351119850188 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30492378386492 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.05480390920178 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15127272392082 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.81419578015314 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.59948760024296 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08570476254609 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.364323377031510 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.33417809773313 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.06473985637985 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15812940857314 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.89057779268620 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.64839373533560 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06998916703042 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.356814249148242 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.36119595079561 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.07326081298655 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16434609650348 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.94866868061020 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.69866641594415 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05184108353197 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.348898676561574 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.38837825746214 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.08234503332267 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17108248642754 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.97702383797954 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.73867582647013 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03641886497984 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.342297459997694 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.41260636690114 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.08992619393200 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17673838391682 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.505E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.99456326323319 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.77925894385946 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01959343420419 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.335529000000206 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.43652810210716 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.09783885414692 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.18281461077414 at nshe,nfasti = 47 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3059 TA= 4.02000E+01 CPU TIME= 8.16474E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.80291888888900 %check_save_state: izleft hours = 78.1177777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0200000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.235E+03 MB. --> plasma_hash("gframe"): TA= 4.020000E+01 NSTEP= 3059 Hash code: 19346563 ->PRGCHK: bdy curvature ratio at t= 4.0250E+01 seconds is: 1.1244E-01 % MHDEQ: TG1= 40.200000 ; TG2= 40.250000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5800E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1244E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.200000 TO TG2= 40.250000 @ NSTEP 3059 GFRAME TG2 MOMENTS CHECKSUM: 7.9028908336273D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3348 TA= 4.02289E+01 CPU TIME= 8.18735E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "PWAVMIN_3", # 22= 1.28080E-38 RESET TO ZERO %MFRCHK - LABEL "QICHMIN", # 22= 1.28080E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 1= -2.43219E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.77060E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -1.21613E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 9.77059E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -1.21606E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0632250000008 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8675E+00 8.4382E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.88223094832264 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.62191767557680 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.416858614976989 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.40202708513962 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.06871751040236 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.71798435972487 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.28526690881926 at nshe,nfasti = 47 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13498 %fp_imp warning: RF renorm adjust = 5.04629819113910 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.48381154151235 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.35810265918669 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.11905957403417 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.55554639458878 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.00802934816516 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.19957276724059 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.15279355330811 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.44498771123522 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.44418928789824 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.389738984469987 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.27087365539192 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.82122000377948 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65008606751479 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.42764979737708 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.61122693046964 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.25389693180488 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.474908888687085 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.69604885682206 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.61811591401856 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.419101809485386 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.53874851176179 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.492426036655095 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.05524561368962 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79736874907046 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.50402862100541 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.62777033951115 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.43181841047581 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.397165931505063 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.68899736207351 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.60106710540834 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.409412305636267 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.54480636407079 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.468284140563968 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01811595440376 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76600807530335 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.50004652868254 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.92790246390060 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.53319081853371 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.358968660107167 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.70483610353985 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.61012391645266 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.396261307019432 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.55919762488747 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.448906670732608 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01063779361048 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76075406207041 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.49435311574338 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 6.26460722162309 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.60087287573926 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.334797540983986 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.72362558257292 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.62196205122858 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.384440219665039 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.57527901690961 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.433889464541948 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01103023321463 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.75958577458875 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.48848902562377 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 6.59684879234805 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.64391210469621 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.317080625764714 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.74187690051000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63386814723539 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.374224067253231 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.59119325826673 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.421804084592232 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01513059362391 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76022375032897 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.48296196451184 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.84992218349170 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.30522789109338 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.455652401786471 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.21861961730879 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.98374878689007 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.79288972755673 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.428656005997959 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.80122133322623 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12248079991656 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.478691900624959 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17449190865131 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.88894783927858 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.59004596744516 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.00679236126961 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 8.63098685973988 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.26059502691400 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.487324641604246 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.29233027548602 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.99430378537082 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77602935596351 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.440682622548002 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.81423012445141 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.13217841991902 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.472788251839356 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17407371999773 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87429466107941 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58388720486830 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 9.16024553858500 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.28762190343395 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.490030017549789 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.31813182180199 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.00921899363601 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77946335421520 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.443033129437584 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.83837972640385 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14678698143728 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.470273969358953 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.17912994480413 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87579900353822 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.57974311643437 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 9.59482584887401 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.30807836233202 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.486853224298004 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.32073257735399 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.02491724439092 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78604364164054 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.442488337510061 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.85807804940034 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.15851572027028 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.468520511353108 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.18486167226868 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87684671749455 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.57590332771655 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 9.96054481993547 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.32193996877349 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.482130909873944 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.31571267484424 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.03894686774307 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.79300667988586 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.440788701140084 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.87494906939273 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.16852559918702 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.467019358960286 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.19050276835732 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87779021099763 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.57230183179164 at nshe,nfasti = 47 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.33136487185094 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.477075611414065 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.30721618938837 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.05172168823452 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.79996181878688 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.438598065203980 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.88957090131860 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.17721845617557 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.465630901430924 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.19580135386745 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87861202316108 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.56889837316308 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.11605984077355 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.405587317617994 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.13126777008179 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84819174452047 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.453053743430631 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03149616516225 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.99407098289966 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24947381968205 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28090844856028 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95378516730375 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.64524750739477 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.03132079151527 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.10342714880458 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.413941146858130 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.16301243096339 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.86351107923017 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.454175281225963 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04054683776168 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.01422985444112 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26059924075224 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.499029153773101 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29058219534169 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95109512045278 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.64207987435959 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.02725643064304 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.10107168772288 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.415907247322319 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.18021791614755 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.87301615283699 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.453279612738599 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04337431465837 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.02930719175784 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26959272805107 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.497952488396590 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29392259187896 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95164526576433 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.63941486577438 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.02348591957855 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.09983476810318 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.415196955796926 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.19442224818128 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88099237651922 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.451927952692739 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04428797865191 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.04193678139082 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.27707905585160 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.497016162858640 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.29776779231331 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95183472602562 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.63676319755214 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.01995559550427 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.09879583832048 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.413050363701315 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.20661917608711 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.88790820996052 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.450437100819627 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04417881399810 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05273267261771 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.28347962788342 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.496069141969556 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.30119317229806 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95179232936474 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.63414227798026 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.01664095086620 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.09790014934711 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.410068180535668 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.21733873837126 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.89401039667599 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.448907985909333 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04341543078557 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.06218153235436 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.28909579184652 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.495080994191266 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.30420572663296 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95156793790273 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.63155809117491 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.01352008557629 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.09709251543339 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.406579323893938 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.22689938978205 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.89945176492064 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.447375905971855 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04217268556212 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.07056376882217 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.29409458603109 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.494042245690752 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.30681417216995 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.95117664097657 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.62901117695155 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.01057390815349 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.99489891955341 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.378219158802747 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.34574222087073 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.97170776489276 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.476888235074069 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19320420478108 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.15725501810849 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.35469817870823 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.38085083357965 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01868592249553 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.69242702579021 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.05306117738663 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.99220559878232 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.375770537087146 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.37589787081556 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.99625404007666 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.470726845732776 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19008753900579 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.17055042660168 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.36103934101508 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39348049338405 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01886839027311 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.69037060651427 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.05062108781427 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.98898909261308 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.373294232065942 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.38892680413616 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.00434981450211 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467947927406863 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18762493452743 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.17783186837838 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.36498512098382 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39408222949229 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01831320525682 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.68834818647488 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.04831197922410 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.98635434384535 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.370628599387466 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.39915236761958 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.01033476313477 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.465983398915512 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18588474149292 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.18454976281800 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.36877573702678 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39572793560629 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01760278072998 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.68624050651264 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.04609159812527 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.98391245628367 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.367809960193794 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.40801956365144 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.01542363781347 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.464282548659880 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18414614844349 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.19030327499887 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37208156360066 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39702539193504 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01668428195297 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.68409610588797 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.04395783778126 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.98154870605723 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.364860747477087 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.41580926600492 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.01984532027548 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462695867982422 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18218437893257 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.19538052158503 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37503575545094 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39803067979448 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01560746442589 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.68193124342063 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.04190027692791 at nshe,nfasti = 48 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.97912768350310 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.361797440859418 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.42265820496011 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.02369541444894 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.461170315675557 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.17993982904840 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.19990042373597 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37768597355718 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.39876087055165 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.01440265793084 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67975803036545 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.03991608612133 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.95610521645771 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.359220941107518 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.439459228983167 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.55056808629985 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10095013965408 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.497769781514336 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35381018411622 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.27603946354437 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43047700125774 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.46393008867696 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07124982921026 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72897038612938 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.07004194997777 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 9.75976425486805 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.83266626779252 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.355299603252274 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 9.095400632033697E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.58877146198141 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.13142816545745 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.491963967956441 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35153656960590 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.28887561530169 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43640264721295 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.47955038299806 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07459473732356 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72761366728326 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06838960054871 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 8.62107779962967 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73186779699028 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.344053106545199 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -3.988369784252752E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.61053566456236 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.14470232814715 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.491162876099713 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35300993642419 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29640195576740 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44053415793882 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.47934505009684 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07349735286168 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72590217426911 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06680098708367 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.72630260517368 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.65490540885058 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.331701233111943 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.09460857319092 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -6.720725621989009E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.62927736930875 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.15577972286682 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.491722856202536 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35696137958738 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30459015524449 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44541949028745 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48061491740398 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07246297124407 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72408788309603 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06524891275576 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 7.09128887540972 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.59679863521137 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.319919340055310 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.18574547138062 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.808792170369224E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.64364329982296 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.16421284535716 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.492515293524093 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.36080706633893 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31204768949070 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44987901193232 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48172134856946 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07130155232549 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72222930280504 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06373378927932 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.67079640312111 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.55507374521392 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.309336463158444 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.21304572300898 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.495506786032294E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.65298782440105 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.16958792111810 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.493098600330891 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.36319365929365 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31846589763370 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45360810581868 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48260689368355 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.07004634427685 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.72035149280143 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06225569327968 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.36182140654403 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52047212929438 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.300049503589360 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 9.96687242955546 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.22035270616922 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.417882209404012E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.65877128523147 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.17278308290666 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.493455356637055 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.36418948316215 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.32385951996762 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45673101485745 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48322083897898 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.06870084828183 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.71846438626568 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.06081361585509 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.12599054954735 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49410981392238 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.292116779736599 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 9.80758084431272 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.22027274563053 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.446541662433019E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.66205610146794 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.17443881521398 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.493582640411623 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.36396250144990 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.32834623394004 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45931654758560 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.48356751029288 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.06727465322106 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.71657412307227 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.05940617345114 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.44696219350167 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.76650314423423 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.353222464285537 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 9.08311108909813 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 7.851773838623662E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.77131955017453 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.24137105886404 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.35792827199284 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.39833407808752 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.50744267367207 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.54906764643292 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12434952510157 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.76281717616038 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08568962967668 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.62676551630134 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73535025971403 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.374015094183479 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.97481841950337 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.110812188121423 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.76729376076321 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.22824541512082 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.32624321677362 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.41802258522073 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.51671881845616 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56908540677354 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.13028404752041 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.76209266007677 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08460424815397 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.70626989362637 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73369414667384 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.381660004648146 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.88697311222548 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.131245973431824 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.75433699535718 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.21467529412810 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.30076287169023 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.42750058588035 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52128466617125 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57019672227069 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12945852037049 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.76077556082793 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08352569086010 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.75452035096650 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73443402257531 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.384528454523837 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.80562799155787 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.143423983724279 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.74080833412310 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.20231746972064 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.27995745512563 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43501211939704 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52507150347054 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57221915418859 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12876132162544 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75935624279814 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08245646135557 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.77725356544811 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73389368904454 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.384997975935793 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.73330295886787 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.150373173152768 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.72707256396337 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.19091151637253 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.26239042267486 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44049075107202 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52773397867863 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57368794344408 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12791120687716 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75789098948807 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08139775369265 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.78151512873449 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.73200610943488 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.384043900172441 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.66765287566971 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.154105308656064 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.71358721063957 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.18045174039472 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24789958138057 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44448472839037 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.52952654041815 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57465815387283 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12692672457495 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75640142396980 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.08035139118165 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.77288052887544 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.72912106217613 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.382164140026697 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.60758960565211 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.155876411318104 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.70063706681527 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.17090260955601 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23600580740218 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44732056372129 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53077229112986 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57519081901940 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12582480807641 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75489606905328 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.07931836149422 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.75544569215945 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.72554935256318 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.379651793217969 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.55249547252962 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.156493905331686 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.68837023360320 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.16222763463557 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22640703787085 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44921933154165 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53157345793485 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57534189419378 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12461814875056 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75337879959066 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.07829899993735 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.73239115487215 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.72155852494990 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.376694237172126 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.50172095144956 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.99914079213123 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.156526095308982 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.67685388435977 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.15438851595172 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21886391394158 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.45033981569225 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.53200524212960 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.57514953101241 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.12331601641743 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75185173184017 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.07729315085209 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.76247270536310 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.68573552241974 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.351016850086854 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.83746103527413 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 1.102215653719086E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.72997337825870 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.18650645927559 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18767769882520 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.50073417287840 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.56829023313806 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.63313618701091 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475960217402214 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.17681384684070 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79369409693127 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09943200805234 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.59959987109834 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.65304315695158 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.350331549943801 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.76996192416740 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -1.844028666994394E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.73374636416711 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.17973875266243 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15803264004357 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.52959079051226 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58320926344151 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66288591017292 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.481702215538393 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18436833474143 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79342932076101 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09876707741935 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.42531888461768 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62344146643066 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.348091688227959 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.67084962870502 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.98986220468101 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -3.395749183719173E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.72480139334121 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.16916122180430 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13149956021660 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.53770998508989 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.58686585741938 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66038278149912 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.482104996068157 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18326261816542 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79242278055340 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09805604971537 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.26602035714440 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.59922271496076 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.344885455409860 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.57284404878272 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.91468219836193 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -4.413954713608258E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.71481664037864 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.15894351019400 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10791030612900 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.54678933507379 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59143396798955 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66270315133574 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.482642511049235 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18266281735852 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79130169348734 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09732720189700 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.12455682541752 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.57866723966206 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.341112456190293 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.47379576946861 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.84440762056555 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.067078726750704E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.70328213554112 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.14849756866805 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08645802938195 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.55387381353929 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59479166098730 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66444686778514 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.483060325284048 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18199881862684 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79013984919377 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09658888815434 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.00099945291888 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.56093876383614 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.336983515001509 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.37528757887145 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.77834733991767 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.390369713603278E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.69063207283307 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.13789371302130 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06680038106204 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.55969545444199 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59754516582148 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66590474972663 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.483450151157728 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18127634246315 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78896239300188 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09584701218700 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 5.89473900749045 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.54593198062159 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.332645487768770 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.27902794829150 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.71709884841753 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.525440856064345E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.67708776569468 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.12715744252498 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04887373510654 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.56439014842258 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.59973275400420 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66702880754573 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.483828703079794 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.18049061266148 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78777750744071 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09510533159238 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 5.80418765390168 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.53340514618935 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.328163237707302 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.18668335600039 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.66046566804207 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.570609519624956E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.66288827719134 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11639406123074 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03257234963336 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.56807987596005 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.60140979410040 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66783057907369 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.484203955795428 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.17964132739269 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78658748807938 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09436598664853 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 5.72759426432169 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52291301905986 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.323604199214072 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.09946427507065 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.60810711668650 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.560168655410924E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.64829938576279 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10572542429559 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01694499185818 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.57087173425374 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.60263482535695 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66834373187199 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.484579906731899 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.17872531618811 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78539230214654 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09363003363562 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 5.66217403670633 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51385006283420 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.319054312226216 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.01786516351729 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.55987999974518 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -5.498827174442871E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.63352543402082 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09522510728189 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00284278073698 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.57285543941689 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.60345636380356 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.66858073796946 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.484959807369035 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.17774539415668 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78419171137308 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.09289799532947 at nshe,nfasti = 48 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.510E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.94590766553157 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.70473593483752 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.360181962900029 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.99444585940800 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.53659217402080 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -3.831476032342733E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.65583280802114 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10679100224820 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.61319182551378 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63363584208911 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.72423434473680 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.449779551592342 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22777002021476 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.82151762152001 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.11115670862001 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.03697488624107 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.67046362903207 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.377717558119319 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.94859881474720 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.52283042206223 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -4.066225630910404E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.65753816485240 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10632047415366 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.63980248626498 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.64759017332752 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.76167196325112 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.455942050306370 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.23831665907668 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.82194129931922 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.11073345353752 at nshe,nfasti = 48 5 %fp_imp warning: RF renorm adjust = 6.04163836496518 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.65576052683239 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.385170066863448 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.89575932322662 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.49098248117529 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = -4.049939631622639E-002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.64485177116761 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09895503108323 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.64195748578281 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.64812100365574 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.75777049684804 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.456438757709879 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.23706438555666 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.82124052851275 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 2.11025221420259 at nshe,nfasti = 48 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3559 TA= 4.02500E+01 CPU TIME= 7.75186E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.27681416666681 %check_save_state: izleft hours = 77.6438888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0250000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.235E+03 MB. --> plasma_hash("gframe"): TA= 4.025000E+01 NSTEP= 3559 Hash code: 22986684 ->PRGCHK: bdy curvature ratio at t= 4.0300E+01 seconds is: 1.1229E-01 % MHDEQ: TG1= 40.250000 ; TG2= 40.300000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1229E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.250000 TO TG2= 40.300000 @ NSTEP 3559 GFRAME TG2 MOMENTS CHECKSUM: 7.9039846809265D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3910 TA= 4.02851E+01 CPU TIME= 7.69529E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 1= -4.20861E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -2.10425E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -2.10436E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.55006000000139 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8677E+00 8.4384E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.07884198772147 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.35241683985710 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.73734122168478 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.87954110055639 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44143480409872 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.209411565553296 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.60796114650629 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33954345743294 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.217017478774781 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.34404202754301 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.63288522173338 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19989024902529 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.70360515833003 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.55591675355013 at nshe,nfasti = 47 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13494 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.00520183068487 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.87281809493855 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.79396482709361 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.02580436669016 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.98099869642395 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.60348357050893 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.227380467314337 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.64715367061929 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.89537576059914 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32638238211658 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14006173503364 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.44664554337262 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.95643432353551 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.26392774262448 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.74317155499946 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.245150598500696 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.71367683720176 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95158628381134 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42895601920832 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23019389010026 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.43022737727003 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.72159095355765 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.43005069262045 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.72930247944847 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.244539000364257 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83119652139705 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.91375251805878 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.38072582499311 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13304527635545 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.38028206925790 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.78212602970627 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.53099824793125 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.76669414780127 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.248858213567115 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83936292013752 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.89960874484224 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39191388445118 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14436961383165 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.37109862388961 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.72682524576034 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.63330538413025 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.85519217749844 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.259285976446218 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.98020858653837 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.93806133398143 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40546241515737 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13584221024078 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.34631131143175 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.76805720745732 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.62774537338384 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.89141982235710 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.263310888299334 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96993154042908 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.90770865704399 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40326819630802 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.13785706232412 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.33736909319419 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.76684596896713 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.67702130438319 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.97834231432513 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.273763450280411 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.10131412111850 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94735364364221 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42508183450644 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14251618683062 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.32361347790328 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.79563049909583 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.63773494472509 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.99857912328300 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.276601871721665 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.08396157471366 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.91919219140950 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41865827912378 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14166356076685 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.31565559188985 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.80961439545412 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.57907619314891 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.99164857543385 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.276352167565160 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.06205623785135 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.89127671835574 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41173953929002 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14054078309164 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.30794954061730 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.84913263074256 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.66789113965430 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.11858365962260 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.292487902970642 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.25986818421909 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96058786788929 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45239782811031 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15574243215457 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.30118993465337 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.86521919396013 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.62586047343050 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.14124504298586 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.296268701206246 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.24168287782356 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.93797421204394 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44374195625777 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15304855093596 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.29498415346898 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.86634735460278 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.56162409273803 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.13159850116381 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.296059079658466 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.22061234342032 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.91663958566280 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43558128259982 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15073387687194 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.28885561400810 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.91222006884154 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.62840564463001 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.23744051967862 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.309924378375550 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.01235463629491 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.39299509584689 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.97473329723540 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47864122354779 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17034030258903 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.28727407349266 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.92094474931971 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.59066921329944 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.24623890528598 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.312293856599596 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.00520401320495 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.37586876696834 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95692944198734 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47031872489499 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16729416561463 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.28218998533088 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.91766479025858 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.53356485747139 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.23450284438446 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.311952879682968 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.35609414037126 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94029268392032 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46254772600064 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16472842668261 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.27722481011222 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.514E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.96234611040886 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.59699557245590 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.32864453364661 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.324983357939956 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.07658867403149 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.51521292030987 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.99107579892381 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.50322351482678 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.18465363687789 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.27834689196553 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.96755517912913 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.56382201019489 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.32040231788627 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.323848675584374 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.06056279182241 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.49798209387852 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.97530178570302 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49556569274065 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.18161849799001 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.27415879988738 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.96320776462795 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.52211175354332 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.30790767382264 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.322724811785413 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.04265519094509 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.47883214828388 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96112397295511 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48846504676910 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17903848389917 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.27009060102332 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.95278731000206 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.48338133587078 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.29543042710483 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.321544721125770 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.02502642203072 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.45746653124996 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94709835322936 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48155964558369 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.17655509426787 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.26618524825795 at nshe,nfasti = 47 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 4059 TA= 4.03000E+01 CPU TIME= 7.74065E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.53750750000006 %check_save_state: izleft hours = 77.3830555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0300000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.340E+03 MB. --> plasma_hash("gframe"): TA= 4.030000E+01 NSTEP= 4059 Hash code: 104821712 ->PRGCHK: bdy curvature ratio at t= 4.0350E+01 seconds is: 1.1213E-01 % MHDEQ: TG1= 40.300000 ; TG2= 40.350000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7030E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1213E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.300000 TO TG2= 40.350000 @ NSTEP 4059 GFRAME TG2 MOMENTS CHECKSUM: 7.9050785282258D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 4460 TA= 4.03401E+01 CPU TIME= 8.19133E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 1= -6.39055E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -3.19538E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -3.19517E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.86885299999994 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8679E+00 8.4385E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.83596435971565 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.15024509630608 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82080962407204 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.67578099490189 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.68408456690814 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.78588636558283 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.06291105751628 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54139489091021 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.30897155754415 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.08657306338085 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.06147591645080 at nshe,nfasti = 47 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13486 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.00664276526014 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.34714810587183 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.04414033523005 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.72656127636783 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.91070713893377 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.90810782174473 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23519976882676 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.64481594973797 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.03779187226048 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39763544452564 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.09871625334505 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.78947909583284 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.97477854920747 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22608712047788 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.31371807019423 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.68394107098681 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.01499433402321 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42725177518329 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.14620343093083 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.84288004813997 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.08239976738879 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.58476601474331 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37270758038310 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.71600209410600 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.00172970160558 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.45479482732364 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.18853131590193 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.89334938794372 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.15457156671826 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.73865602618333 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.42113889268036 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74774250625070 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.47966333151711 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.22561630754051 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.93822388451567 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.21817005865087 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.82900484972702 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46442837897739 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77610142131527 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.50114859347438 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.25734791479668 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.97725380765011 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.28356712986110 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.89621389996158 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50334376537202 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.80271228701177 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.51929087020572 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.28395195671996 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.01094489155332 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.35167872944536 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.95685532134465 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53873056628489 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.82824171342756 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.53548664436644 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.30728545553979 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.04172003168215 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.41932590675266 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.497476107745967 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.99629533943919 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.57271377846903 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.85455141561583 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.00575481760112 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.54925742648187 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32709005929300 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.06891798276171 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.48915079217812 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.477833630367732 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.91033479927350 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.60447997913201 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.87986160998424 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.01421276895141 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.56140673168795 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.34440266618728 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.09482796132809 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.55837351196067 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.456759551369381 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.79923559811508 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.63369555344334 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.90287856277342 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.02198020825961 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.57332175356193 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.36192374854694 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.12191865895453 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.61684477561004 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.435546552521345 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.67878155057921 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.66274528321469 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92551017042811 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.02947959532622 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.519E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58471755418118 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.37946404805756 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.14957771871537 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.66682754215945 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.415962177709732 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56222162249979 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.69073892632679 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94747570577528 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.03667653958463 at nshe,nfasti = 45 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 4559 TA= 4.03500E+01 CPU TIME= 8.10826E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.79413138888896 %check_save_state: izleft hours = 77.1266666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0350000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.340E+03 MB. --> plasma_hash("gframe"): TA= 4.035000E+01 NSTEP= 4559 Hash code: 60006184 ->PRGCHK: bdy curvature ratio at t= 4.0400E+01 seconds is: 1.1198E-01 % MHDEQ: TG1= 40.350000 ; TG2= 40.400000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4660E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1198E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.350000 TO TG2= 40.400000 @ NSTEP 4559 GFRAME TG2 MOMENTS CHECKSUM: 7.9061723755251D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5027 TA= 4.03968E+01 CPU TIME= 7.65725E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 1= -8.95783E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -4.47894E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -4.47889E-38 RESET TO ZERO %MFRCHK - LABEL "B_FIELD", # 1324= 3.89843E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.524E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.50187400000141 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8681E+00 8.4386E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.75275216228997 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.00197216745391 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.12637590471674 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.90980861355383 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87819860615372 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.124420284116838 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63362989783558 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.34632495506828 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.465733159446778 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.67040870979104 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.15170333309511 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.49688976579415 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13482 %fp_imp warning: RF renorm adjust = 3.12555334387418 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.15686838010874 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.30392521917300 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.94158717744165 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38802343814622 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.52997799807522 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.54732202908267 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.71515260695921 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.53057912046073 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.28692891764988 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.49888394533839 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.228280287210563 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.04350725828386 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15715591783077 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.402447540101999 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.40269780729890 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.90244195658685 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.50182115458285 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.06980395354055 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.08330499533836 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.50476979803565 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31083110094371 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.09364638224454 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.41927522942899 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.22840297033994 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.46651234667173 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.204176150007186 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.07575290808819 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15597681486071 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.375596014442999 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.41388428702717 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.87627922061389 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.48427722461061 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.07784645230495 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.89444695492560 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.498846284239923 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.28219819536479 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.24260968401208 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.08403300016724 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.39890753918322 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.20522157461731 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.45536941902245 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.190770289056543 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.10484150411255 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.14695075662723 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.359200981997364 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.42867748877297 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.86291124706206 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.47077432582612 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.07413088168663 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.78296335629571 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.485483969831708 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.15225316907926 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19878997329476 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.12198471967346 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.39137047935354 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.19398143376602 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.44985106817540 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.183178799780493 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13813713981927 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.14274230714555 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.348681272303809 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.44676855322393 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.484286898109074 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.85829294936729 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.46158809902031 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.06767627926771 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 3.71372622168866 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.477537012105283 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.06522710509233 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.16654238685613 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.17162533266016 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.38347724002733 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.18736977957895 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.44689994320373 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.177806018295027 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.17185300256732 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13999319432358 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.341353859560187 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.46856131939402 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 0.464524374370093 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.85881891607897 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.45516775529509 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.06084124518480 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.524E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67530171068154 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40466177504104 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.93556475497606 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.89478526598188 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.09035225925540 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.05627621026453 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.81472023218120 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.82390154965077 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.131673063064342 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.64252542125401 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.55495048398191 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.474579222332583 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95395476966789 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.18305802871756 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.24549463692698 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.66976965316258 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.14927096441093 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.78725619716159 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40187888986013 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.09087840576738 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.97188233687730 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.84893372828066 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.18351581144948 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.85226848355650 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84276263729245 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.119464895985552 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.58198424395302 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.52465586340209 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462484777198525 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.94618637168200 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.17636141284169 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.25904236715608 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.66638602933175 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.14340726642445 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.82964368383235 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40561409110852 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.09944320951747 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.96295135432591 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.93976540870029 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.15199631398730 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.88584390173766 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.86108472731891 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.108471397220285 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.61224021117270 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53707460314536 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.455575753072754 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.95305816462944 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.18187462163184 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.25802820324270 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.66287948275982 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.13793913237702 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.86861928628509 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40536402858632 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.494476832230518 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.11963764050010 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.96466714448481 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.97144650100782 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.15828848724388 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.90979705626358 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87419618781947 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.100449821269060 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63896209615695 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54599018687701 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.450635549210799 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.96405177952022 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.18965204196816 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.25982592722112 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65980453747384 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.13288299155696 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.88313841447393 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40005470547741 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.482328109657672 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.11626734413545 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.95307381507800 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.04381520937164 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.15695743007092 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.93147952538370 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.88631473888127 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 9.353247799400938E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.66535973722620 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.55496031842393 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.446855477189988 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.97678928798296 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19839209542953 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.26271884259128 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65716477247994 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.12823503421102 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.88815731569986 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39662373653878 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.470313233679956 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.11720263272414 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.94722530778218 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.08974491389223 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.16182903349446 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.95116197371429 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.89742487102288 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 8.755619847173932E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.69112315540902 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.56386569959702 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.443753168487820 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.99013349523295 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20744447442722 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.26610310331867 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65490094692778 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.12397138720286 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.88391139602778 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39190728486774 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.458954687460659 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.11131688052312 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.93818393281625 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.14458568623407 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.16313073766134 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.97043666142648 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.90836277350906 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.00245453719075 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 8.371598531269092E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.71621762238236 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.57248701724157 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.441194162979675 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.00352268306940 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21647043638322 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.26972755776886 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65294826332811 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.12005891706194 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.87829703940352 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.38786275807190 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.448460613628066 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.10778315163970 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.93173756930454 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.18899652616771 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.16673407021103 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.98978949754479 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.91954368518290 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.00894232037580 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 8.258972078609268E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.74015559346064 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.58036689577747 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.438997757779329 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.01664128456262 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22526885353853 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.27343434343469 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.65124392981259 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.11646270310707 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.87046637291702 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.38375615161003 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.438782648240800 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.10198672557903 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.92451256324149 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.23636044290518 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.16986079887367 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.01031812487421 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.93171416513565 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.01609013628028 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 8.149566873065911E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.76268902719532 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.58791939048823 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.437034166442900 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.02919604163573 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23365171643686 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.27708604596751 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.64973407476846 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.11314845755287 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.86305836479856 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.38004956507778 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.429936654937580 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.09680274471213 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.91845193562890 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.27825481588093 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.17389809523685 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.03098566703344 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.94402283516967 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.02332165891566 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 8.049242598530541E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.78397381359029 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.59515114484091 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.435261746266684 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.04111930654120 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24151187802532 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28062112521488 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.64837679352865 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.11008387501467 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.85560136656926 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.37569119380351 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.421794418876647 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.09111718420103 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.91240486062894 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.32033410561030 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.17796018050007 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.05157011371499 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.95628925557237 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.03051209227187 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 7.958592142940932E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.80408986870946 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.60205842247538 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.433653241728668 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.05241150344148 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24893852608618 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28400186886561 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.64713909908375 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.10724058356544 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 4.84888773987916 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.37169019777592 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.414291004455397 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.08592283675609 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.90698147544558 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.36029345185883 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.18268124767394 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.07183119438646 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96835738925873 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.03757023906443 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 7.875523411314303E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.82309483202065 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.60863286392300 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.432175876164848 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.06305356101681 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25593234795225 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.28717628694352 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.64598906221945 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.10459318696545 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.524E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.16730316301316 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.55080195703526 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.464681966109760 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.36393403706397 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.09399838474404 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.88825483806710 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.52801196008859 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.32821940633340 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.11864646911340 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11791286636027 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.116073108856466 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.01107721259260 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77594189513611 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.483033109612231 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.24427065973687 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37065738423912 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.43481196838833 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76655744601701 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.19495158362489 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.38131762634554 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.54848545777410 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.482317612598333 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.54210706378345 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.19325232080449 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.67228076529143 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.63716276508623 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.31258040551964 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.11803295666080 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12176003003113 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.111286978029551 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.98548245538612 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.73703159869091 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.488627590183823 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.25314812961831 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37333814068169 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.44627517422870 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76709578757073 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.19313252368024 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.46740746299329 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.54996042136788 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.487390688506683 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.59788295871136 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.20568436515937 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.82519794283635 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.64977365443240 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.32347147950268 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.12541669358788 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12657363068113 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.108732857670747 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.00235315075719 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74115091734774 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.489070382786443 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.26007224983529 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37819559980014 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.44695596308935 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76643458526778 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.19123952789067 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.52075848063907 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.55071848393419 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.488225863283286 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.65241310369983 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.22251745715497 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.88995194271314 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.68261477859343 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.33720320096834 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13373078705933 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13155833013677 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.106938943123055 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.01544977278093 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74469038358160 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.488716515773562 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.26711285993512 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.38293269881683 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.44880603766441 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76559696507800 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18933167856430 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.54370780392818 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.54770338228243 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.486664195411365 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.68127674029436 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.22600951525390 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.98391121595434 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.70363561471519 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.35358171364861 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.14341633500315 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13720781260510 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.105564092487115 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.02707766263492 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74840569925362 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.487982780590162 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.27393082634976 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.38745469676137 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45077599749367 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76470639544871 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18746914205844 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.55719141757151 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.54509300589019 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.483937990762868 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.70842368740694 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.23189539255588 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.05128256654574 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.72669047511571 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.37044277342331 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.15336407044000 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14298933449629 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.104415534502580 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.03778193616868 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75185964778412 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.487057932227527 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.28046439796970 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39174728529723 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45265883694022 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76379482551883 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18566851384778 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.55905735375340 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.54121233245327 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.480441002435138 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.72455456716359 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.23262527254173 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.12553955719177 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.74447835505290 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.38771928806253 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.16354110834798 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14888255472898 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.103421841313149 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.04792352973395 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75538406670670 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.486043388078267 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.28666302176011 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39579894002344 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45440424565984 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76287198712881 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18394002544462 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.55676985530453 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.53751915088270 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.476516645215980 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.73836941699738 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.23375554122538 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.18579208830167 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.76158334272715 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.40459174102935 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.17348186137175 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.15463918417890 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.102518341900518 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.05755519980023 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75885483986184 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.484983827433477 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29248922549807 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39960462417237 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45599993042478 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76194048778469 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18228325032673 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.54962135550577 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.53336425828106 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.472314747144141 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.74644616757228 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.23246913072100 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.24559966354228 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.77571339379433 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.42108533916006 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.18318628171657 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16024368570841 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.101692222638071 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.06675194685485 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76224901697790 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.483893361101496 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.29793495773264 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40317386101263 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45744112718333 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76100012919063 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.18069471686834 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.54044743383882 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.52928382236746 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.467971807048904 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.75249487610172 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.23094550863425 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.29691052609591 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.78849812364766 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.43687953641448 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.19247104327114 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16560409144058 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.100917066760612 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.07551337664010 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76552703882165 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.482777734434423 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30302058259173 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40651277276951 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45873214478421 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.76005080589717 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.17916987106927 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.52902445473517 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.52502008520284 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.463534738857520 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.75534158777775 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.22816656131170 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.34573723408279 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.79839275489438 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.45200630857006 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.20135007753268 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17072764042245 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.100183190751144 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.08385592003236 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76868214737802 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.481647819748982 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.30776310397714 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40963219329635 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.45987657065138 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.75909193811294 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.17770386362661 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.51651258947635 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.52074188169445 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.459070433942291 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.75666798680320 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.22504404141632 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.38897116403548 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.80692827397972 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.46636420513516 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.20976470749511 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17558215794738 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 9.947560684765418E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.09179287285090 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77169967576006 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.480506276709743 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31217843809819 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41254345232690 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.46088095819783 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.75812296263360 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.17629198615978 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.50295520085746 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.51631514729385 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.454605922349599 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.75607829726629 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.22123991969309 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.42903629369179 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.81389048094426 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.47998407926949 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.21773095968788 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.18015828565920 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 9.878920268081171E-002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.09934340046542 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77458203482411 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.479354733540720 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.31628102440895 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41525634336817 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.46174739194336 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.75714289646802 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.17492972111859 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.524E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.43258843865568 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.44045346364175 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.420938688546403 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.85624401755283 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.25719277066776 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.75297686670371 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.70517742717359 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.35005710252901 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25094571689313 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.131194509435456 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.18877893328380 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.85779859273968 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.42037616647373 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48039121312717 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.54962665882235 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475204482094535 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82829985321264 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22573443781568 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.43232821827663 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.43532575976071 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.420743555088592 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.97424843980088 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.28757522592609 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.65198451868992 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.70250942136102 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.35524430148587 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25699222950079 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.127967639580169 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.17326476539219 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.83564477954506 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.42989405363396 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48143191079670 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56272942546987 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.477115249337611 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.83002022047814 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22503676901231 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.42588949154325 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.43391078682398 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.419383149333438 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.96102679567029 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27639340942255 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.80708314905037 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.71809268343708 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.36510844100703 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.26294831088489 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.126381131001556 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.18156013323719 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.83892996909424 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43217988226110 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48313870365250 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56137473229326 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.477352875590985 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82922138486788 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22405549383710 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.43616292982450 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.43434155841056 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.417835329934015 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.00545791958153 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.29480612863734 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.80122953481224 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.72897616290680 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.37171521133236 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.26688503213091 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.125147645465104 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.18601817420135 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.83984667121477 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43479282118538 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48493783984968 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56175138373035 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.477201172313684 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82838220599306 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22300586499399 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.42197156402593 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.42929503130442 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.415443002164170 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.00160912221645 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.28558282467219 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.90432345792492 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.74074644778205 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.37861473322199 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27085736198100 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.124192535987565 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.18994987643500 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84090763142620 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43721517146806 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48659701443253 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56229852978382 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.477001941040324 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82751257745454 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22194560169560 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.42008052663123 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.42704832011433 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.413008855426811 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.02223862630707 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.29324529534433 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.91817369682027 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.75014394718705 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.38410367037527 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27404193951921 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.123291418292627 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.19327030409562 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84176510133597 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.43945819371989 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48812607715434 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56276066525350 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476804115513363 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82661143725798 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.22089434671184 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.40485975159777 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.42178671462551 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.410179985909662 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.01802027967488 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.28579751958615 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.98888492951632 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.75963660901590 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.38959447952382 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27718061763536 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.122482548176681 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.19646517524085 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84265676520893 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44152880831258 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48954150830624 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56310618223528 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476618617458448 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82568302105007 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21985941563827 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.39695013089757 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.41827127218746 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.407377414701550 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.02716655948297 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.28782635598635 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.76738102782242 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.39406553828525 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27975769745444 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.121673117173530 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.19935792137164 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84341148567869 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44343526027487 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49084827618175 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56333923931700 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476448825988192 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82473147998812 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21884334675968 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.38162279206354 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.41288220946181 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.404382243394168 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.02194319180888 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.28114584529395 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.77485116621751 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.39834945597425 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28220866522901 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.120906707076506 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.20215143900586 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84415057847539 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44518465595269 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49205594126485 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56346686664030 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476301047361998 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82375949114974 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21784641596241 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.37080418031501 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40843280989743 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.401435240675952 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.02431950446729 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27995552857295 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.78095551275098 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.40183391257071 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28421550169576 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.120134379051271 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.20470793345098 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84464347680222 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44678217885382 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49316732282442 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56349588484193 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476185701348989 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82276964323786 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21686795590256 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.35563524695473 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.40259022862501 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.398394540617064 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.01798087228624 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27346639452884 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.78663499116290 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.40505033375068 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28605707677511 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.119383138521605 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.20714566421096 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84509301858939 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44823221914988 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49418907579336 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56342861716169 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.476083210433718 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82176299819431 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21590701687377 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.34313814639812 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39710145740421 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.395392407444973 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.01591944935778 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27015681770791 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.79123610635864 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.40763189454964 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28754261666607 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.118625951167553 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.20937340833877 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84543750108203 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.499597042924314 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.44954420425088 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49512469192271 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56328126855136 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475994991376405 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.82074325952893 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21496282249971 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.32809676975817 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39106035569305 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.392354785983882 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.00848578704093 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.26363999128953 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.79587215837478 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.41020249256014 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28900225747785 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.117887584153672 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.21165841308646 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84600869244768 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.498519099853634 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.45066032983351 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49594948533445 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56304412302136 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475922876515669 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.81971018543942 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21403433973830 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.31453775750933 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.38522222419573 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.389360061883272 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.00318866186352 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.25883327342139 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.80069404862477 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.41285048943541 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29048979845674 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.117171930397588 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.21404813463661 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84695112573512 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.497313605932392 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.45153534405273 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49663916566782 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56270765698062 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475867923878103 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.81866292417608 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21312036805129 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.29940741397363 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.37830626264745 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.386364235296383 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.99461772752838 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.25208041713091 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.80554941566436 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.41550515666842 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29197377069487 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.116474417995965 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.21629827424727 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.84791049681326 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.496053195135528 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.45224752147391 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49722845807054 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.56228676373809 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.475828574957960 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.81760312693940 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.21222000377876 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.524E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.41352544691933 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39699587478135 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.397895627024400 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.07169928099233 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27326713993435 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.02473324536599 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.54404439343526 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36019062486234 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.147444487264436 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.31967191159704 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94252904402731 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.54412942482164 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.55401011621295 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.64045607718975 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.450421345782925 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87583600269832 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.24878641857330 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.44147156714682 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39973036122481 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.405602072512763 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.15128726431813 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27764230929326 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.02862862354585 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.55253669969248 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36783298398607 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.144843941173083 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.29974186286513 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92386535606180 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.54099030207438 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.54739381387631 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.65250158152714 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.452819913415359 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87788949285272 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.24849066296827 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.44759335779920 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39965588788928 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.408061291683450 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.13492783676843 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27039937343440 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.04246599511778 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.56132652225275 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37316915738311 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.143429570451141 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.30141285159619 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92482487528244 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.54058193873420 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.54739450683146 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.65023630651827 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.453193892736646 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87704132800264 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.24785835642268 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.45143586439293 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39849429277917 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.408690370320816 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.15353267227921 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.27626675041349 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.05047531662918 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.56619587728735 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37607674634384 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.142324577194916 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.30124069790915 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92414167388942 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.54025121794763 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.54734245244023 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.64960839878067 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.453257059591617 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87618193890942 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.24716063745919 at nshe,nfasti = 47 5 %fp_imp warning: RF renorm adjust = 5.43806055128543 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.39428419097880 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.408046421512416 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.14193764683650 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.26689799160713 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.05762314444631 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.57034041718502 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37846015372005 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.141432517499602 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.30119979550155 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.92370662482113 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.53992057815087 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.54729865869550 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.64909030205687 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 0.453273079700435 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.87527653865672 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.24644125267003 at nshe,nfasti = 47 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5059 TA= 4.04000E+01 CPU TIME= 7.65952E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.20907111111114 %check_save_state: izleft hours = 76.7116666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0400000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.682E+03 MB. --> plasma_hash("gframe"): TA= 4.040000E+01 NSTEP= 5059 Hash code: 108885486 ->PRGCHK: bdy curvature ratio at t= 4.0450E+01 seconds is: 1.1182E-01 % MHDEQ: TG1= 40.400000 ; TG2= 40.450000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5280E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1182E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.400000 TO TG2= 40.450000 @ NSTEP 5059 GFRAME TG2 MOMENTS CHECKSUM: 7.9072662228243D+04 %MFRCHK - LABEL "BALE0_SGF", # 1= -9.15943E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -4.57972E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -4.57971E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.78671899999972 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8683E+00 8.4387E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 8.70340480587416 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.35720266661625 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.18452980753330 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.33196051646436 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.32605445607660 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.40080308172261 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.440324149307257 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.34338348613151 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.499186323659073 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.89694062289752 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.45025122349594 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.16541945811990 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.90807440207749 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.251898305848689 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.60189793985871 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.490717756984971 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.75666112682353 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.70046880929771 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.57482429117745 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.27547523104776 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.24597034644954 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.06566275050765 at nshe,nfasti = 47 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13478 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.37289215029809 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.79377252606139 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.11253933394064 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.95023161644435 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.68183606916629 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.10644110979593 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37084188221950 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96705020859524 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.08934635736623 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02346870754561 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.05781450268033 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80706702736557 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.20051977925334 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.79178308012970 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.79981053698660 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.71403302604738 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44495298985106 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.99365980707247 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.10909152585307 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00183726178891 at nshe,nfasti = 47 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78227575770330 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.25347265187842 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.77059537102991 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.20327373533685 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.66773426721008 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49461938766869 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.01215883457136 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11627762954511 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.86455111121549 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.35066366402989 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.87857160063415 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.81880702985566 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.69811484750562 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.01250428527694 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53866531063361 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.04875789655492 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14794296789005 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80295282444289 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.32301602690511 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.86590129830420 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.67412554555403 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11194206626854 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56115666007244 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.04228498783362 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.12672098757562 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.84283744813985 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.37485094076656 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.93187598343358 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.58115739269129 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.09927033013328 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56836578657707 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05112761641375 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.13882632020430 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.84622423872522 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.39289560989639 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.98970071255695 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.59253768920226 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23807074254225 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.62178263527432 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08577072942445 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14125479512825 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.86574805750215 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.42780381574346 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.03840806130003 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.47800357350031 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.20251509617189 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.61041068201446 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08188633646745 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14449361541263 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.87363823820079 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.43856853898294 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.03113848091895 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.55185718162992 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27728549753646 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.64363779392509 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09404582300856 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14183790585343 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.89127089394023 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47131148126297 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.07022630018946 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.45783126632421 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25632915127860 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.63710010827989 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09061014533695 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14533796198361 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.529E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.89944440108408 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.48372084712900 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.09075839674015 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.51048133822147 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33250025421595 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.67889452988165 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11620933854144 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14983489157334 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.91112040465263 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.50846197860009 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.12402535969439 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.43986310390453 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.31122410437588 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.66709057448338 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.11044208711506 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.15018303758635 at nshe,nfasti = 45 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5559 TA= 4.04500E+01 CPU TIME= 7.98664E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.43576805555557 %check_save_state: izleft hours = 76.4850000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0450000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.360E+03 MB. --> plasma_hash("gframe"): TA= 4.045000E+01 NSTEP= 5559 Hash code: 115570488 ->PRGCHK: bdy curvature ratio at t= 4.0500E+01 seconds is: 1.1167E-01 % MHDEQ: TG1= 40.450000 ; TG2= 40.500000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6430E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1167E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.450000 TO TG2= 40.500000 @ NSTEP 5559 GFRAME TG2 MOMENTS CHECKSUM: 7.9083600701236D+04 %MFRCHK - LABEL "BALE0_SGF", # 2= -4.22664E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -5.74013E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -5.74004E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.534E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.72804799999903 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8685E+00 8.4389E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.98497209901558 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.57131807076794 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.72002183588128 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.73297042032516 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.41809033924982 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.78747939716794 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03462229200249 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.413731811219956 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.49758647515717 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.79950350291342 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.27146235423726 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13476 %fp_imp warning: RF renorm adjust = 2.77318565893353 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.79254438495492 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.40223291679976 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.93392658871682 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.04024940221643 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.26152421401057 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.472353074745326 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.09413129588003 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.419155748840281 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.42295424701983 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.73516810826711 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.29639734640528 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.85273281215568 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.27202176256419 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.78115983902265 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.92217683450273 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.16843350474305 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.25297583817707 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.447622708539452 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.02066365787722 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.431409783887429 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.42480154038964 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.71650064952650 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.28128282343051 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79664022983157 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.16844541970007 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.65726457348112 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.88631121054728 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.26343667433693 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.23673373952840 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.432030657965949 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.00929580685158 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.438620617962728 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.41976378231856 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.70426764406753 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.26971640408856 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.534E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.40677261178707 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.89902792010381 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.12816291341548 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.445397821889266 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.70485214074527 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.75204904102078 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.15953574104383 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.48136702707817 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.30157716820992 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.420577711255227 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.63049318616836 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.91759929744731 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.36047566693663 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.41147467694973 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.97587159629910 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.40359652314157 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.452896213523981 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.98190996634479 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.69293283309717 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.71743339769467 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14377522822068 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.45959259576634 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.28297678541021 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.415264347981827 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60767491664126 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.90163766158055 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.34925807051713 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38484090904755 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.92422656566413 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.25314393804189 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.445854408475438 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.74542151455115 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.72875311449240 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.15362107931898 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.47005729402866 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.27615353520540 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.411161571047074 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60812700097144 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.89715316880953 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.34250223708514 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38935512497628 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.94168750635052 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.32787821366177 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.445937317628850 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.75954538612127 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.73033386165844 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16741936404258 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.48053159401187 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.27107289821602 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.407762349185341 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60877225131840 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.89292736509660 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.33663204517738 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38452627232317 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.92444048408574 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.27805231147802 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.441781458454582 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.79115788375139 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.73981641243582 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.18408602150121 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.49214191162470 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.26796176377843 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.404719897082417 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60934548560277 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.88887686648348 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.33137929365874 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38859237381972 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.93071730725740 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.30817606559747 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.440658485592499 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.80784699292894 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.74481040292181 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.498563965248846 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.19117442791934 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.50189399892280 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.26472278805084 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.401964453952884 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60960382412892 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.88489290596395 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.32658032462085 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38909770310702 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.92438932126520 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.29232527669005 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.438050975605513 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.83146186723746 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.75190278462279 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.495405367434013 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.18478220258079 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.51208613985251 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.26204797883989 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.399456139860970 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.60983995336401 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.88097123108702 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.32214153207972 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.39308135224084 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.92747933860066 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.30661692596732 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.436845169368440 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 6.84928191767632 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.75615769859330 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.493290098149241 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17964591531274 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.52248570918670 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25944492003709 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.397249719347462 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.61018041467925 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.87721635608640 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.31801381765724 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.534E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.58409379582103 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.14796702938656 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.469619168602510 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.75285625772351 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.386108477773239 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.04802573101754 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96749458672158 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.18158924596864 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.66496924997088 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43930834667762 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.440762267070380 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.74061765129728 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.97764078805637 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.38427603510512 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63123752011356 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.29300959268799 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.460313683524441 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.16001450102524 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.396935774837885 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.03521527169634 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.94232489790886 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16420890658162 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.62990067646469 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43219663671890 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.437296152655890 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.72183309460809 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.96784504308320 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.37844022649353 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.61445198955453 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.24945365791454 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.463442810097286 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.98900425993508 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.390612626587837 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.07837848207906 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.95673101411361 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16398714811917 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63349157872359 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43118853284555 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.435434355816676 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71985374534170 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.96476259453200 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.37529258948143 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63238943937886 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.30391938294359 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.458404571346370 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.17741953320139 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.394436519394240 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.06780020689382 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.94829338078722 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16574016884087 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63364712820149 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42825449783549 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.433869766228197 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71771791577200 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.96127152435502 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.37190511257733 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.62487427543449 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.28153061584317 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.458928652395131 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.09349580103558 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.390839341404975 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.09016783560447 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.95845063626430 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17186886093353 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63642855378746 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42706012239408 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.432253786880727 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71573357228996 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.95797056708932 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.36894263034496 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63481836788226 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.31016387725479 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.455520082693690 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.20121189990001 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.392596676844010 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.08419694081693 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.95556487415369 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17790700387456 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63675380415090 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42452204821259 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.430639876265258 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71347353039018 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.95463486486210 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.36603966451705 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63108793187327 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.29690106897328 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.455326525629535 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.15473037700174 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.390363551779066 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.09803472771816 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96325552671023 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.18609242689727 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63852392252433 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42289975304619 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.428969771512032 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.71128742168608 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.95134298127470 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.36324268410497 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63699052921428 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.31265804436721 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.453024747474930 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.21895257529013 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.391318757983323 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.09556692980618 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96317439247175 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.19373741283513 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.63897785822601 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42051676637568 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.427308057594664 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.70893864843840 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.94808180038271 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.36053970176968 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63463158345460 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.30341250333265 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.452699868839251 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.19024031925375 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.389936283280138 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.10514931826188 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.96941473215254 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.20256206940703 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.64018469849945 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.41865328877335 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.425616489213954 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.70663870350310 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.94487612760338 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.35792482838258 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63788756969899 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.31158061128213 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.451161394835840 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.22863208996826 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.390549696593685 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.10478258846351 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.97082663510018 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.21110156151665 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.64039561021979 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.41626716739373 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.423929365125407 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.70422441517319 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.94170349907750 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.35538818599448 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.534E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.67985292223340 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.38731726686137 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.437474181122986 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.52658774764547 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.362029923942175 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.30369298462962 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.14331501174409 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.15881520964429 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.75091659059087 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54533988361538 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.460094713525690 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.80888422439672 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.01689135591373 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.40387904209316 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.72506264563222 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.53693477518555 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.432081639264803 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.00837066204602 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.373558939654435 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.29572865840986 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.10835615903664 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12616057066369 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.73128085862475 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53997609360949 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.458297536529000 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.79368055750371 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.00892870297504 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.39969877584159 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.71136099809278 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.48758821590852 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.436312738331350 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.80168542177787 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.368305145151140 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.33068715047637 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.11422982278857 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11505771239392 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.73545504270569 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53992417192523 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.457347813444229 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.79159823422617 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.00646165518340 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.39754077625178 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.72830087366791 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.54683132668639 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.433794029525953 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.01925480723612 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.373776117538079 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.31498821935934 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.09988947445233 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.10837298831676 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.73507510694007 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53758201723056 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.456500443522055 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.78943020648358 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.00389127432736 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.39546195057149 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.71704641521547 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.51590800375387 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.435548488368170 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.90480044586821 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.370584709891960 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 7.32705447443231 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.10298401031075 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.10746844082552 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.73609713649571 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53650638381639 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.455482970844318 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.78733094373848 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.00130835488556 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.39344392371950 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6059 TA= 4.05000E+01 CPU TIME= 7.93394E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.71128972222226 %check_save_state: izleft hours = 76.2094444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0500000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.050000E+01 NSTEP= 6059 Hash code: 112688474 ->PRGCHK: bdy curvature ratio at t= 4.0550E+01 seconds is: 1.1152E-01 % MHDEQ: TG1= 40.500000 ; TG2= 40.550000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6970E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1152E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.500000 TO TG2= 40.550000 @ NSTEP 6059 GFRAME TG2 MOMENTS CHECKSUM: 7.9094539174228D+04 %MFRCHK - LABEL "QRFBTOT", # 14= -7.03339E-38 RESET TO ZERO %MFRCHK - LABEL "PWAVMIN_3", # 14= -7.03339E-38 RESET TO ZERO %MFRCHK - LABEL "QICHI", # 4= -4.83901E-38 RESET TO ZERO %MFRCHK - LABEL "QICHMIN", # 14= -7.03339E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 2= -5.17860E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -7.02864E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -7.02834E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.539E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.71192299999893 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8687E+00 8.4390E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.40362745205248 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.40684978270457 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.24243777957573 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.73426064810182 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.50955755517893 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.20106095930181 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.59207994696277 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 8.06015935645997 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.12447675211869 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83713930280808 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.71666791702253 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.34589548045446 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.20519680894649 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13474 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.539E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.95144887572880 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.41383911957477 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.65820989110094 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.00771460043645 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.86473644708818 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.20846314670191 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.99910993937892 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.02105305103550 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.18456805712852 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.86927629072873 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.20404462769363 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.41603575233275 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.15603966924692 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.29404429025364 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.17632537857466 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.97734828006196 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.32682383216020 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.07977168751914 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.28358625217678 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53044593460068 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19817930994037 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.26072735802969 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.23824722633406 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.09399948393883 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.27647484897582 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.12456499026445 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.24557980533480 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.57198386885203 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21300432669348 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.25794717405984 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.27827737377175 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.16760759643011 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.28856568288645 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.11379976402296 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.20456562145101 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.59057272716044 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21952752631855 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.25479870306509 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.539E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.88111456668876 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.59748574602376 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.91784610109964 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.45236530290686 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.09257468626380 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43780870110408 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11539012991909 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21799168310066 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.93062569804681 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.61789055528146 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.87212202522999 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.41879475566842 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.06437098987355 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.43233870080075 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11490979415329 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21496727606123 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.95943733715752 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.64563340327848 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.86739671799952 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.38962353287263 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.03730665752427 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42960357632145 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11432754368398 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21149812891663 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.97975212463054 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.66941796009010 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.87107911104154 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.36194715603157 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.01270835278543 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42629333266060 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11336686007665 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.20812605799932 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.99528395109203 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.68952843484752 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.87650850139264 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.33627035566713 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.99088705536652 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.42230043194201 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11208973092905 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.20487503895242 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.539E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.81768936366217 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.85046493457979 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.52814154240610 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.81808574325597 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.76726733636483 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.10482632674504 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.46304101081999 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11944864376170 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.20118733465931 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.15049039645711 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.87566288914908 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.55639212882230 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.82909522581573 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.74376110001023 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.09108536364552 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.45799984862589 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11720431245791 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.19828251799044 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.22151501370271 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.90971103074522 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.58617727123200 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.84476151858840 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.72768997909471 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.07655269559949 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.45322355395319 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.11523262515424 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.19549754735508 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6559 TA= 4.05500E+01 CPU TIME= 7.99417E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.91131305555564 %check_save_state: izleft hours = 76.0094444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0550000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.352E+03 MB. --> plasma_hash("gframe"): TA= 4.055000E+01 NSTEP= 6559 Hash code: 100608051 ->PRGCHK: bdy curvature ratio at t= 4.0600E+01 seconds is: 1.1137E-01 % MHDEQ: TG1= 40.550000 ; TG2= 40.600000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7870E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1137E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.550000 TO TG2= 40.600000 @ NSTEP 6559 GFRAME TG2 MOMENTS CHECKSUM: 7.9105477647221D+04 %MFRCHK - LABEL "QRFBTOT", # 13= -5.81192E-38 RESET TO ZERO %MFRCHK - LABEL "PWAVMIN_3", # 13= -5.81192E-38 RESET TO ZERO %MFRCHK - LABEL "QICHMIN", # 13= -5.81192E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 2= -6.43137E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -8.72452E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -8.72505E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.544E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.80993100000160 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8690E+00 8.4391E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.96877181048817 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.93421282009311 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.42291353773852 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 9.03443699770206 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.53424794700345 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.46184969146712 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.93276223104098 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.80079154830054 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37420560284295 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16601427733866 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13470 %fp_imp warning: RF renorm adjust = 3.04009783372223 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.99489837963522 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.53950696426720 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.72472473665309 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.68898239323760 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.99907858509604 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78372600941524 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.35655887098256 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.22138809714815 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.10774049675158 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.98622229010504 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 4.52821350181467 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 9.94759297144095 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.09070491453768 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.84651407014830 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.06738444098539 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76469760435669 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.34426565754706 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21506107047157 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.544E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.42514945475496 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.31762957369463 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11259626547597 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.19941396112959 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.98143656854275 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.23085155005640 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.91705912063434 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42440501972787 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23736911968002 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.46562256709376 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.34997033721157 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11199100109285 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.10196024527997 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.01435666712607 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.24341693775456 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.91285299783904 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41711774099729 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23125933958670 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.49696075615229 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.36435668192063 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11141951777460 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.00242238893869 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.03590313428271 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.25858023423023 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.90843550663133 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41163775992777 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.22641514248878 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.52346082793568 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.37396741641696 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11314346862514 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.91548738672181 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.05192863857438 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.27089412422152 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.90404888936297 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40668541407540 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.22223921955532 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.54664647707357 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.38108687448599 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11580751793144 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.84072435403994 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.06348488497471 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.28013455996756 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.89975477267744 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.40209016983512 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21856478569680 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.56718756469467 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.38652182707695 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.11873262344335 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.77595577529903 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.07145836362353 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.28685603881848 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.89545314804950 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39776956782904 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21527300785282 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.58540766064585 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.39055757257856 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.12065372312456 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71851886246588 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.07662451622155 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.29153723071318 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.89118644410893 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.39367376121411 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.21227811695867 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.544E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.72137888287941 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.57282044384994 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.56461469469398 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.439462599671651 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.35551841111079 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.19502602018376 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.35212493179580 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.97228995172078 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45177370438576 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.24718417660434 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.76223580451046 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.62713598046157 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.62543217378495 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.445083269645553 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.17851535134904 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.25165049375379 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.36485163707376 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96944240415972 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44766442887846 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.24414199242025 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.77676354374065 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.64825520588279 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.63026980689001 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.441350021870690 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.05522050761521 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.28085612071717 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.37592948300230 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96627859428580 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44437927523148 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.24180201476451 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.78712433129702 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.65996603322467 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.62693682889680 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.439341616068477 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.30337113154685 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.38566021129377 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.96313615601260 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.44126461062974 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23966314503122 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.79459782953510 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.66643149071484 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.62289982918908 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.437853071292749 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.30827219318394 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.39018976608532 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.95972199965877 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43823729448135 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23766940644703 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.80039790582603 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.67022471474545 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.62106404713965 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.436856536112914 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.30040319361084 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.39012922429668 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.95600510788127 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43524762893614 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23576865827639 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.80539477277120 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.67234903939128 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.61929109795765 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.435682898091294 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.29325140113915 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.38905730973512 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.95224196345280 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.43233538938198 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23394186848114 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.80964920617866 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.67335785270562 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.61817311788066 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.434674490816373 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 6.28293978244844 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.38636412261256 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.94837201753770 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.42948836791141 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.23217442741393 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7059 TA= 4.06000E+01 CPU TIME= 8.01529E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.13541611111117 %check_save_state: izleft hours = 75.7852777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0600000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.255E+03 MB. --> plasma_hash("gframe"): TA= 4.060000E+01 NSTEP= 7059 Hash code: 97353518 ->PRGCHK: bdy curvature ratio at t= 4.0650E+01 seconds is: 1.1123E-01 % MHDEQ: TG1= 40.600000 ; TG2= 40.650000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6780E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1123E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.600000 TO TG2= 40.650000 @ NSTEP 7059 GFRAME TG2 MOMENTS CHECKSUM: 7.9116416120213D+04 %MFRCHK - LABEL "BALE0_SGF", # 2= -7.60595E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -3.80291E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -3.80304E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.85622300000068 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8692E+00 8.4392E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.76254852084359 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80362589116231 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.10657972211039 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.93667686720860 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 9.22700659847528 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.449603742074172 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.09147148653171 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.420288555932898 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.84411114851916 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.57847849005364 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.416091340438815 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.91552670741072 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 9.67413176779112 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.322743131999353 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.435828875451245 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.00181974575826 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.29559804078372 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54599095822617 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21185845438646 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03625838207314 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13468 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.13661013385809 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.57337466895182 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.15262258573115 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.36254150851373 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.95433214398216 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.14416371640965 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.29941877347247 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50095124870338 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06841524813737 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.71051841386882 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.99480734033500 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.33550624272865 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.82202667985486 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.22964763796204 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.37134213284178 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53033110827196 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00534821195717 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.72545207906394 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.92184534645221 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.29644679149608 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.78074074472601 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.52577462564230 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.41099184233599 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.54301894022911 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.74128611154072 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.89253100918222 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.28007990324946 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.78449868801220 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.79430549877211 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43826196985419 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.55465438735007 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.75544916402935 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.88306909514673 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.27715420994949 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.81887229684731 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.03273475445179 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.45941686719103 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56465288574682 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76892184277268 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.88270708362694 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.27954087960647 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.86862363404208 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.23681763697460 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47692960807362 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.57319325485593 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.549E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78182344143840 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.88789551739113 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.28462740741076 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.92721372962726 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 9.41638530441867 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.49178457729504 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.58081035215911 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7559 TA= 4.06500E+01 CPU TIME= 8.16183E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.33986500000006 %check_save_state: izleft hours = 75.5808333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0650000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.065000E+01 NSTEP= 7559 Hash code: 27888390 ->PRGCHK: bdy curvature ratio at t= 4.0700E+01 seconds is: 1.1108E-01 % MHDEQ: TG1= 40.650000 ; TG2= 40.700000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7560E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1108E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.650000 TO TG2= 40.700000 @ NSTEP 7559 GFRAME TG2 MOMENTS CHECKSUM: 7.9127354593206D+04 %MFRCHK - LABEL "BALE0_SGF", # 2= -8.92999E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -4.46489E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -4.46510E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.553E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.85332899999958 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8694E+00 8.4394E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.23456879942187 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.39170919614706 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.28297944435695 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -85.9584720463461 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 8.56205668498551 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 41 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.19181303441020 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.10152357132755 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.473463498504504 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.79369258621819 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.23359024816823 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.51155584116440 at nshe,nfasti = 45 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13462 %fp_imp warning: RF renorm adjust = 2.89825382023076 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.28860744586393 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 9.92177274701267 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.15617256510978 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.494651159240299 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.100797842217151 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.46886047117268 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.18919314393472 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.27307944786168 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.469384842402162 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.37221222870596 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.82342179431708 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.41928810178394 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.08091567400050 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.75950388948136 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.83854645403240 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.84093423751787 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.05097078495523 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.440185440356308 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.994333840218521E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.32602061799703 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.06191579002735 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.25453808646531 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.482969256114091 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.35209930882042 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76984077191891 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.38443517267084 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.08797616892983 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.67792282869710 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.60553281096287 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.06455669758198 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.418577335805036 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.337648620415526E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.31150296911624 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.00586752382093 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.26407838840922 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.492616950201561 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.35702026152382 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74860042808506 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.36496185883918 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.08396066097607 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.63091111227197 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.45747563217052 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 6.66600153792364 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.421293566147351 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.844830287724467E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.35224012492404 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.00962696265531 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.31597909024722 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.497641912273347 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.37502489777450 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74167808391595 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.35261161739865 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.07749639448385 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.60762908113744 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.36752765794086 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 6.41022647482872 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.420181144914885 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 3.532837583583658E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.38269957380126 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.03038770870521 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.36768905406371 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.499711553132065 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.39694016021415 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74084394742404 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.34393930713563 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.07077115353102 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.59456290355160 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.31138117050266 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 6.24828716904846 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.418533978285703 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 4.148462464942589E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.41133957473854 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.04396003356282 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.42447221703205 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.42140922256255 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74300725174036 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.33748862774842 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06440656272285 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58713097364867 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.27339718020408 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 6.13685635581080 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.416587136259403 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 4.684359168286423E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.43427375600835 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.06159757491361 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.47341106337385 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.44492739358567 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.74652565412917 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.33242152721997 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05854800754907 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58397470085661 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.24770913690397 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 6.05751739540653 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.414550783892302 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.101242876293993E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.45476030475955 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.07397129771409 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.52020263005752 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.46773964775676 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75093211313703 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32861455586751 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05325661229793 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58253455423915 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.22943399213180 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.99881842934115 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.412449231431493 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.446351913236794E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.47235155136141 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.08761864770931 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.56028983804191 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.48863960801240 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75541757410827 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32547946736438 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04845443490697 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58248249330194 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.21686553204478 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.95559414754232 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.410474394816121 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.716313819638145E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.48835123783810 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.09848862220310 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.59746357103873 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.50822624875344 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.498169060769042 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.75960556834242 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32287900637162 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04409851494451 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58328474618128 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.20768916433133 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.92267778208853 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.408654660797690 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 5.914179175102334E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.50287687127245 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.10969913661347 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.62879583486417 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.52646887981141 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.496094871391952 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76365876472217 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.32069992727507 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04014297575187 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58459573672357 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.20106063010149 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.89734185695849 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.406921947911315 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.047883782125690E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.51631077452807 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.11938925475289 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.65637309203451 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.54328599507790 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.494263535620282 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.76754236745034 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31885098449503 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03654315767035 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58622347961464 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.19613278723647 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.87727157342498 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.405329670608652 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.128052093055984E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.52865380408292 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.12897086263454 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.68087357283648 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.55849698023564 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.492720304168876 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77116005905606 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31724154996112 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03325510515405 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.58809647445086 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.19246135786049 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.86115136041775 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.403668716450222 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.165849594770691E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.54012769404236 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.13757937499325 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.70316590125501 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.57231057865523 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.491380411768270 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77463903871424 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31601352531115 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03026811746022 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.59022706490295 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.18964822240019 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.84796634085858 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.402157243561582 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.167979101465271E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.55086987747054 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.14593124836095 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.72311864358868 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.58477616804674 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.490285006522264 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.77764347568245 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31460884880898 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02748057438161 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.59239455999193 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.18752326965071 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 5.83691827724776 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.400811702200741 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.146799611671358E-002 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 6.56108608050360 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.15373975819780 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.74133035808966 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.59607276564145 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.489371756629605 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.78036705665750 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31331183419743 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02490210677271 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.553E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.79822301451070 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.06578285350050 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.53127326284201 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.29173571273946 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.93736695842412 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.80223116327493 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.148858999383604 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.31612636272737 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.53145557405073 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.332077730209368 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.46118963164966 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30564212946341 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.460540492626190 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.23153259141640 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25648524235872 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.480273879959124 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.35507632059248 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.64792817333264 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16719931906759 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.67978712768300 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.03579510449714 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.44950367119695 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.23800699247982 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.22931976178187 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82407681944241 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.146577846028135 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.38964415418509 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.74091331198936 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.415374886175805 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.42806857561714 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29485488777920 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.457105702406400 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.15641733890948 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22773524013493 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.479070491283265 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.31113399855500 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63732567641035 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16386317318689 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.64954950045603 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.02488713886562 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.44145172506318 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.23407279197709 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.32141568452231 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83540498270563 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.147216126374544 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.40932388372737 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.78862729087489 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.465319551335016 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.40530346764498 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28626025307697 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.453157688963443 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.14908880547474 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22251499175442 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.477698432909242 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.31172572541143 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63679027563367 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.16178064302398 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.63081290063008 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.01670811283438 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.42900989236513 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.22892628299556 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.35715734369176 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83764141623092 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.148370708367338 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.43424795467436 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.82761193732327 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.39097309368155 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27757704533386 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.449448880642667 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.14269106635569 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21822756626577 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.475918207720932 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30904947103376 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63542693497786 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15989148108993 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.61675747180679 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.00977484367212 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.41556893503853 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.22378084521554 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37016236686697 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83697004973550 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.149380064667054 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.46243230345783 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.86288699443423 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.38288807129844 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.26959356186552 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.446101726952855 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13844290214805 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21490891127593 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.474065247731256 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30640979423946 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63380372417202 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15809132109444 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.60538153534457 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.00363409867632 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.40284498484079 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.21898826089947 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37575424890686 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83541007520213 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.150047925466418 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.47591311450064 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.87500741377515 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.37902191800297 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.26268981803371 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.443237689806147 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13593184582433 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21233240804410 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.472260619966057 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30404100514890 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63206847406701 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15635579679772 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.59588741762889 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.39139747330573 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.21463987628591 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37879096751750 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83357664801317 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.150355485398693 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.49211755003979 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.88867479502907 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.37819205708993 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25648970580568 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.440709289594156 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13428717570137 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21018123172889 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.470514371050534 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.30188844581758 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.63028944595612 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15467228939108 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.58765359524465 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.38103175527326 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.21061790924442 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.38045772936274 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.83161161590366 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.150362315768279 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.50832664332524 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.90212931615607 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.37944390364933 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25089106373245 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.438439619061553 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13327891854773 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20833722322213 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.468835226859177 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29992674974140 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62850794601066 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15304328317433 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.58028404493722 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.37142059197608 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.20679356679690 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.38106900776690 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82925401691377 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.150135010486010 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.52349129464736 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.91466465744328 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.38196252124198 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.24577646212034 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.436372604732009 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13267407168982 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20669567757522 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467223983387328 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29812568466532 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62674770412300 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.15146774567068 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.57379651985950 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.36263559678451 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.20320495018580 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.38096731223903 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82682497366074 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.149736698739430 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.53690455712286 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.92572167509609 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.38519701759485 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.24105601122951 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.434469416178186 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13246809560815 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20524923539977 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.465684370713988 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29645621540316 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62502105138887 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14994549461853 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.56796653193777 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.35461722868641 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.19982057543397 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.38007594762348 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82427921754782 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.149203410715458 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.54912439430693 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.93582599544722 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.38887512425769 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23664318180011 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.432698389109823 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13262302479660 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20396689956506 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.464213853772552 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29489431567764 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62333451684670 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14847578205864 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.56270669666139 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.34725038345416 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.19659744303798 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37834245456660 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.82158746160635 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.148551568470987 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.55988049525708 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.94474869295637 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.39276976448427 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23247537688464 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.431036737418806 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13292471927324 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20278130265877 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462800413829366 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29342080749834 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62169144043261 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14705744996777 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.55787927407799 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.34040066672850 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.19349109673686 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37579266471718 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.81873924574542 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.147793939485112 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.56929474374032 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.95258326451989 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.39672403932522 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22851124053766 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.429453053640177 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13331326664509 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20166018260429 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.461437689873288 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29202010395776 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.62009272331729 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14568882386763 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.55339693211477 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.33396659686205 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.19046716617605 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.37240160127456 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.81571496945364 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.146940522225532 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.57730184798843 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.95928186792724 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.40062474101491 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22469591582068 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.427944850723653 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13374682917468 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20058083293648 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.460120690513699 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.29067884964851 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.61853804540353 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14436797720601 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.54920698818581 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.32786826024255 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.18750089013589 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.36823611734999 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.81253478511982 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.146020233954541 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.58400996299516 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.96491272139287 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 5.40440104468647 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22099142696042 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.426502184676936 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.13420312268193 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19953348776630 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.458845601264062 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.28938443832776 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.61702554215771 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.14309276405421 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8059 TA= 4.07000E+01 CPU TIME= 7.66745E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.66577138888891 %check_save_state: izleft hours = 75.2550000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0700000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.255E+03 MB. --> plasma_hash("gframe"): TA= 4.070000E+01 NSTEP= 8059 Hash code: 93583942 ->PRGCHK: bdy curvature ratio at t= 4.0750E+01 seconds is: 1.1094E-01 % MHDEQ: TG1= 40.700000 ; TG2= 40.750000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6300E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1094E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.700000 TO TG2= 40.750000 @ NSTEP 8059 GFRAME TG2 MOMENTS CHECKSUM: 7.9138293066198D+04 %MFRCHK - LABEL "BALE0_SGF", # 3= 4.36145E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -5.09427E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -5.09413E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.88932600000044 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8696E+00 8.4395E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.9 cm.B= 4.1980E+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= 34 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.92867395113432 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.33226978956863 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.29672318558923 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.38468781199641 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.16721264032239 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.25175346424723 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 3.24663245569753 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 9.90641834153630 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.82190293593960 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.289320891500585 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.30584887662722 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.265622849288236 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 3.89980020363877 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.377244452917009 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.77546592143517 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.20432082262495 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.23311033902024 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.63980304268778 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.65075338450527 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25404705856657 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03166308522133 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13462 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.96015522764226 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.42027749766025 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.40172989568029 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.06961453462566 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.57759823786386 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.35412726942613 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.20060251003114 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.41212775684111 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06316431715876 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.32723510841021 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.56437666253792 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.89890872115560 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46044558851085 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.52462198074077 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.24798029221280 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.43927157672341 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03150023582934 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.24651249098532 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.60820006810754 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.83105682081331 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.40310283675303 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.66060489003741 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.28407555618449 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45471900053795 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02379295795810 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22680933747062 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.63857794215674 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.80989988944765 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.38055940619027 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.76657777221696 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.30883807808109 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46716208544482 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01649089116709 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22522962708879 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.66392799719543 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.80578042474437 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.37255306613555 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.85196511670211 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.32716846014229 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.47730427599769 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00972882421694 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23125031732364 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.68591832534372 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.80912400246977 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.37113178610948 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.92419913052112 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.34166719634064 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.48582520347261 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00362798877855 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.558E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23916850491160 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.70524938670634 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 2.81531633855032 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.37275924745901 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.98183484334117 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.35273827824823 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49246330357360 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8559 TA= 4.07500E+01 CPU TIME= 8.17159E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.86473472222224 %check_save_state: izleft hours = 75.0558333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0750000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.255E+03 MB. --> plasma_hash("gframe"): TA= 4.075000E+01 NSTEP= 8559 Hash code: 15190666 ->PRGCHK: bdy curvature ratio at t= 4.0800E+01 seconds is: 1.1079E-01 % MHDEQ: TG1= 40.750000 ; TG2= 40.800000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8300E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1079E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.750000 TO TG2= 40.800000 @ NSTEP 8559 GFRAME TG2 MOMENTS CHECKSUM: 7.9149231539191D+04 %MFRCHK - LABEL "QICHI", # 2= -1.37242E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 4.98307E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -5.83151E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -5.83144E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.563E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.95893900000010 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8698E+00 8.4396E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.22662910980429 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 4.02202669163921 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = -103.388461063653 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -51.1313758453859 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -429.453493446554 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -12.8887734215049 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -53.1033294687781 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -235.782574602134 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -1752.97790822963 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.28125744850308 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.22994583009211 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.78643886365667 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.70255259540655 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07119385325265 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.38913854201184 at nshe,nfasti = 45 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13458 %fp_imp warning: RF renorm adjust = 2.96370415699438 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.69481295569137 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.08979822510044 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -24.8447912423163 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -175.916336368949 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.62596097679110 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68041707725817 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.87458715762550 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.25248038022922 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.73410049505324 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.37423899852518 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03169248111355 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.86364814662795 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36320592477640 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.40222905518011 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -38.9994091566174 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.82859650554057 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.57630364525903 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64803801278507 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.81495491255759 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.20515006223725 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.68399503932187 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.35117153298580 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03606929568933 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.84350486884289 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.12011452003973 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 8.34814581833039 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.23778098375211 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.26294937510544 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.07933955674307 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.57706854767283 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64261683377411 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.80220070032629 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.18539190403681 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.65938388732670 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.33312715006862 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03178008452638 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.81250717916586 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.98233218546941 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 6.98055144753337 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.12685634729309 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.44326856100171 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.59880711436469 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64593313396097 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.81250602148744 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.18192451604894 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.64727169581264 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.31951938824997 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02524462981371 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.80263852323519 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.91978706217816 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 6.33133371429259 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.07357317727958 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.44206793353429 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.62638225882202 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65072677648581 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.83119766609965 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.18602920949607 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.64086183775254 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.30883289791665 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.01836637874203 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.79060338717208 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.88280963209995 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.96306460715406 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.04188070802256 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.41564283398818 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.65475394566381 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65487901364761 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.85270993461720 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.19368687651002 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63742936385348 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.30024263426010 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.01177577019043 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.78275421083333 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.85785958905671 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.72044881133742 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.01927543033899 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.39009216732092 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.68186848483566 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65856649691749 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.87457210138874 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.20315309169363 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63583404844901 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.29321404975417 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00566522405507 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.77827453490418 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.84072951999116 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.55234720114675 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.00293375987474 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.36951542450165 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.70787222447347 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66238864692121 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.496187340336716 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.89428119041971 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.21312026818394 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63516450847315 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.28732169558457 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00006631508249 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 2.77588789907668 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.82940900573629 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43101256108771 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.35399536476040 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.73495424155922 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66702212988239 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.490771337381163 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.91270267870891 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.22325157563249 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63504686072464 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.28231583034651 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.77548174814720 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.82207166499743 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.34000931517967 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.34266574105737 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.76195546326126 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67222417682619 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.486283877953573 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.92997668888091 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.23261349737291 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63480927437719 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.27793057429508 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.77673109411956 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.81715827758568 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.27043817831139 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.33461549976465 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.78703859761112 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67733185177114 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.482489232975158 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.94608810836688 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.24165135036587 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63501938850594 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.27409812307784 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.77844415992206 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.81374263283435 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.21644079321698 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32895302741588 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.81052868839142 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68232782791607 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.479246227477275 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.96058883187317 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.25012460983650 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63536194998345 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.27068464289489 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78043228557478 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.81125872836036 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.17409969126098 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32500840943227 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.83246184971945 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68713825731552 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.476432362975106 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.97304157497591 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.25801360201391 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63580535545010 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26760959981105 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78247955323061 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80939013444888 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.14048996805167 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32236877692886 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.85292397517268 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69173586732597 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.473957146511731 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.98448763165604 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.26530813218583 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63626624733348 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26482359411497 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78442779167272 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80793704222620 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.11350752327756 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32091201825753 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.87209132292210 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69497121881118 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.471734816055525 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.99510001584094 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.27202410583617 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63672588795273 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26228240144631 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78620252953864 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80673025220903 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.09159177670470 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32027615670834 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.89011100510756 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69798200507269 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.469729476934457 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.00491123471343 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.27821817111272 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63715943806821 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25993976570029 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78787691285942 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80572258021222 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.07354458236886 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32019543968291 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.90703654019437 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70038332774796 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.467879423717689 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.01396561334529 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.28390793965990 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63754862808588 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25776776387658 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.78953542715784 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80493567403546 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.05856120826529 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32040863136378 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.92299064575365 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70262885442063 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.466176346799957 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.02165581340419 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.28912994285511 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63789940926160 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25574354927819 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79112146052035 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80437028717948 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.04598994956114 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32075082295722 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.93801268940766 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70471893637050 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.464589817347774 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.02861721308439 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.29392473531447 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63820476204776 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25384887796527 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79260330949441 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80370679114180 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.03528885575064 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32111954429349 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.95218210855225 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70664857665911 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.463104537305582 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.03502318690345 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.29832583403043 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63845448272282 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25206491664796 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79396908640880 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80303220141320 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.02606784897655 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32163792123536 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.96555474795612 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70841195134762 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.461704029108665 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.04090526769131 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.30237403327560 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63866117711612 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25037819795621 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79524761884888 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80233957197390 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.01791049646799 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32215395379186 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.97817395014129 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71000249024959 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.460374392705556 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.04629725619772 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.30609319158849 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63881533324842 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24877815298948 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79646780148413 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80163020076658 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.01062535691301 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32251789758212 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.99010563645200 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71142430424298 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.459104867764240 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.05125267577822 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.30950888993024 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63891946494832 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24726000133985 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79759609234736 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80086779213546 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.00403439389210 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32268575971963 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.00140366760934 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71268190749064 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.457886691571758 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.05580841110452 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.31265155597049 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63898125243190 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24581148385543 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79863324442895 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.80007015761557 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.99798557277630 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32272247463335 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.01211109177875 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71376593068115 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.456711462238189 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.05998405161605 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.31552942295810 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63899197676290 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24442408478390 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.79958635403805 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.79927692884103 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.99229723435205 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32264285910526 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.02226510678638 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71469655080209 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.455573893953490 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.06381607196888 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.31817600964714 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63896584943607 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24309314530478 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.80043301995930 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.79843054208337 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.98694290795163 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32232095066126 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.03193190643335 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71548760901402 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.454469991896480 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.06734519546631 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.32059369760369 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63889492631823 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24181167831315 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.80117102985146 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.79746353891442 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.98184679887656 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32176331241816 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.04114250698525 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71614769507949 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.453395925806444 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.07059031530776 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.32278907025643 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63877289239340 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24057449529791 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.80182409592639 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.79640489576166 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.97689688848836 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.32104986570192 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.04991033135021 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71668432357030 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 0.452347917869797 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.07356406476860 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.32478748000858 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.63860756432223 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23937892081645 at nshe,nfasti = 45 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.563E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.95409857791243 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.30562810234239 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.96506747064243 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 6.22696247049707 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.63276258796610 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.04633493272951 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.81585152487598 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.68046822046565 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.95321169549143 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.424074606010032 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.02237850308727 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12982397103391 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467457144308101 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.21307081862561 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.57179833714477 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.10357627168102 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.89033445143338 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.25188202798983 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.93540417135284 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 6.29117671475849 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.62307815134412 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.06543403035018 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 5.63576479707938 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.52899286395469 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.98808247974952 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.439464712761077 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 4.02549493253836 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12448169071106 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.471436869868539 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.19850142150821 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.56933584143204 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.10227280031662 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9059 TA= 4.08000E+01 CPU TIME= 8.29085E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.15597611111122 %check_save_state: izleft hours = 74.7647222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0800000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.151E+03 MB. --> plasma_hash("gframe"): TA= 4.080000E+01 NSTEP= 9059 Hash code: 78660482 ->PRGCHK: bdy curvature ratio at t= 4.0850E+01 seconds is: 1.1065E-01 % MHDEQ: TG1= 40.800000 ; TG2= 40.850000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8680E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1065E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.800000 TO TG2= 40.850000 @ NSTEP 9059 GFRAME TG2 MOMENTS CHECKSUM: 7.9160170012183D+04 %MFRCHK - LABEL "QRFBTOT", # 6= -7.98372E-38 RESET TO ZERO %MFRCHK - LABEL "PWAVMIN_3", # 6= -7.98372E-38 RESET TO ZERO %MFRCHK - LABEL "QICHMIN", # 6= -7.98372E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 5.51527E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -6.46340E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -6.46351E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.568E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.75767799999812 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8700E+00 8.4397E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.43297369443161 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.20532665996390 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.40597860321851 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.36204400157989 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 4.90417209778806 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.22670667964165 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69104204181930 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.78819021909253 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84828700218451 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01995085917555 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.480286069158878 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.03403554068591 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45233529081343 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06665970904446 at nshe,nfasti = 46 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13454 %fp_imp warning: RF renorm adjust = 3.32597863969275 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34447320062076 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44835443449360 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47477391316564 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.04711606992178 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.76424957013488 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.51846468562371 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.491119416709091 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87799939897391 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06311856082765 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.476870742198942 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10485283866044 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.50432580528479 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.07285345833663 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.32916757368959 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34071503465207 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.39033067146606 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46302282447192 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.05096410152049 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.75901622415785 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.52552844291458 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.490807358807821 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.88138209180454 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06508266630363 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.475184105936780 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10582188185392 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.50301584092203 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.07082175202014 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.34208504591943 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34401745100762 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.37816157976762 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46246470497272 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.05005549774263 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.75365973938793 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.51622454614333 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.491987591921741 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.88024113010649 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06360002913817 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.473936354350947 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10469577411431 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49995098069555 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06822869572891 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.35597748388839 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34927757041391 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.38269891625026 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46449192024223 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.04520956148731 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.74765581909677 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.50552952076142 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.493325930875826 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87773065750287 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06127304817479 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.472819139044170 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10316270572026 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49700877226901 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06565737563636 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.36918673620166 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.35470726444819 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.39390417521092 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46761792348690 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.04047644404470 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.74223620591445 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.49588591789080 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.494563527503708 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87483288051789 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05882224999958 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.471768931069505 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10138546861993 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49430554935603 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06324348670109 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.38118770165023 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.35971472825505 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.40598396696767 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47046103938630 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.03547966706589 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.73720317094306 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.48742972265380 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.495682747491022 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.87183934842795 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05639140962407 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.470761569983511 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09945212641692 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.49180694964352 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.06101390307829 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.39144269733919 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36404021466606 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.41697122852970 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47269056905304 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.03045663523099 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.73256530115272 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.47992829933909 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.496698855128431 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.86886541778776 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05401999428689 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.469786441407949 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09742201406637 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48947430187864 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05896026768745 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.40050953080774 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36762997279600 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.42617170688391 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47425184072960 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.02536923784574 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.72822335331645 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.47315619387302 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.497631961916000 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.86593681946164 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05166140854467 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.468834347228710 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09533228172251 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48727671154654 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05706301914410 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.40848076191758 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37047706706561 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43331777757214 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47514433803767 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.02011133330407 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.72407565461522 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.46695319061654 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.498480695119078 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.86304784233234 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04935958301694 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.467902631369133 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09320726927915 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48519146519918 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05530090687200 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.41548136877289 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37264419667291 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43850640440370 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47543456289822 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.01472262881821 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.72008884213241 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.46113715890841 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 0.499275952654831 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.86017288026072 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04706184055917 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.466986272865635 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.09106130039261 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48320118041144 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05365436356267 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.42162351065278 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37420198573848 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44196531844146 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47520879513061 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.00915809330016 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71621498266173 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.45559155805275 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.85732706325953 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04478470394316 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.466084283603152 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08890688985269 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.48129277958339 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05210669093522 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.42695490787980 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37518538912086 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44380673406639 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47450137717906 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 5.00345666499936 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.71242363754333 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.45024635175916 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.85450899375097 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04254472771485 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.465195782243535 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08675325693740 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47945634535482 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.05064411268892 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.43156500489216 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37568583866969 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44436690946985 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47342515655600 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.99779096836575 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70874713783798 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.44525021973763 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.85171235545303 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04034869108063 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.464319149111699 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08460440780837 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47768364017440 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04925536171655 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.43554103646257 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37570668518471 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44362878783331 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47196206016975 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.99204124725234 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70514413333204 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.44034300886902 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84893645766212 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03818067177309 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.463453552251296 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08246899163205 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47596934994318 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04793151693717 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.43892586870797 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37530658179211 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.44178802213286 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.47017476058493 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.98620039085861 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.70159211525708 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.43550692028576 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84618068556205 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03603878720845 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.462598355281893 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08035126006757 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47430854589442 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04666518040701 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44177168589320 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37450328638830 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43891089566262 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46807823890711 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.98030176978213 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69808454351267 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.43073269218751 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84343216460068 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03392018628659 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.461753533068229 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07825382006881 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47269712359757 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04545025438715 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44414567034281 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37333614019902 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43509373906824 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46570364660771 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.97437348060011 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69461757715093 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.42601509285706 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.84069907490228 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03182620707614 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.460918817057537 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07618035113921 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.47113191063186 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04428169246182 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44608592097110 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37183510641436 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.43042333882378 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46307648977106 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.96842787885927 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69117881935071 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.42135004993617 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83798558965919 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02975715685908 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.460093572822133 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07413368338684 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46961017679447 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04315522902467 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44763415615991 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.37004495700195 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.42503919050784 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.46024189570336 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.96249971462830 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68776993948062 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.41673672273813 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83527718889748 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02770995705265 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.459277197283830 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07211528769766 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46812951351131 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04206745607887 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44882800806879 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36799347204201 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.41900786790208 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.45722048758897 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.95663519411938 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68440329528433 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.41218265646769 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.83260041918912 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02568184045157 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.458469814468342 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.07012675775736 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46668767120799 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04101522697994 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44969690210103 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36570775500545 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.41240633418046 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.45403418733293 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.95086866248837 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68108554164658 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.40769196634382 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.82995851541009 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02366435772050 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.457670956458668 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06816927441782 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46528277564659 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03999591505417 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45027702510895 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36322226740346 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.40533127182991 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.45071346874016 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.94522664673695 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67782539260493 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.40327007341895 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.82735452782841 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02167704542491 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.456881401915118 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06624383817382 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46391316060984 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03900724425705 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45061471821611 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36056361003051 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.39784214764830 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.44727753769003 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.93972297652545 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67461988601929 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.39892355573183 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.82479080008895 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01972094709617 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.456101121535776 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06435062337826 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46257720057588 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03804719676319 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45082746513014 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.35774303180306 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.38996170735809 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.44373166520089 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.93444239068641 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67149723529606 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.39465506814261 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.82226962811069 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01779666973486 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.455330066543904 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06249052403083 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46127345335437 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03711399225555 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45082674037456 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.35478078823344 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.38173720425780 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.44008955158036 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.92937234714301 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66845562532818 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.39046521581240 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.81979064032040 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01590410950401 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.454568298619269 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06066348874170 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.46000059661446 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03620604747707 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45061224519317 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.35168196398776 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.37316939503012 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.43634929651059 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.92444834483064 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66547485236083 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.38635775152463 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.81735812418068 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01404474576267 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.453815942092443 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05886970692034 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45875736362764 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03532194196843 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.45021364651792 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34847567111516 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.36430646707618 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.43253678174891 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.91965204210459 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66255016665056 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.38232870880042 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.81496911663817 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01221696327965 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.453072945509422 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05710744443733 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45754265698995 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03446038320860 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44964774586201 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34516977899756 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.35519951321575 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.42865564057735 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.91499687246704 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65968357161949 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.37837728377373 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.81262482552032 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01042127534117 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.452339390984773 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05537740753990 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45635522877245 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03362015639706 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44895278710923 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34181152699370 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.34601833225153 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.42476240694616 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.91049386335387 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65687140151844 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.37450971117319 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.81032539259329 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00865868084521 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.451615586299391 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05368064426112 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45519432004666 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03280021485802 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44810136173464 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.33841292411348 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.33679064758976 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.42086226279291 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.90612830119088 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65411240544586 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.37072041384596 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.80806454896352 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00692735096710 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.450901630356567 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05201715678033 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45405914084428 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03199961300400 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44711159753277 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.33497043000651 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.32747793086052 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.41694362161535 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.90189258340418 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65139226455788 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.36701243211194 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.80583995687152 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00522542909967 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.450197022686255 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.05038523681459 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45294865648922 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03121744379893 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44603057383054 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.33150273168883 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.31814680178889 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.41302699419477 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.89782197263678 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64873509541335 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.36338984327317 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.80366178061054 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00355592737687 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.449501964374588 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.04878427545338 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45186186983782 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03045286394958 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.44486443335766 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.32801164996706 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 5.30878755316619 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.40910637362060 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.89391487746071 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64614018478468 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.35985196521131 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.80152945418600 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00191841349111 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 0.448816347124044 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.04721366806263 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.45079793503931 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02970497431915 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9559 TA= 4.08500E+01 CPU TIME= 8.27025E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.44891166666673 %check_save_state: izleft hours = 74.4716666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0850000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.132E+03 MB. --> plasma_hash("gframe"): TA= 4.085000E+01 NSTEP= 9559 Hash code: 6661006 ->PRGCHK: bdy curvature ratio at t= 4.0900E+01 seconds is: 1.1051E-01 % MHDEQ: TG1= 40.850000 ; TG2= 40.900000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1051E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.850000 TO TG2= 40.900000 @ NSTEP 9559 GFRAME TG2 MOMENTS CHECKSUM: 7.9171108485176D+04 %MFRCHK - LABEL "TQICHMIN", # 9= 1.83132E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 6.15525E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -7.22133E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -7.22108E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.573E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56906600000002 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8702E+00 8.4399E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 8.81680105724586 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = -5.63006549857622 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = -8.34364814095875 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = -11.0934823805462 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = -16.6251424105875 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = -28.5142924469802 at nshe,nfasti = 33 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 33 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 33 5 %fp_imp warning: RF renorm adjust = 3.88549993457249 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.52789734030785 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.00818494802135 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.81945075457756 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.60699303970108 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.57152834256399 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.36377293379521 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.463924624465170 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 0.439852599879230 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 39 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 39 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.283565990235961 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.08773864209742 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 0.296695865237925 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 7.89054615450593 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 4.07602717859468 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.30857884706899 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 3.38962717100774 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.67159502551729 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19869337346049 at nshe,nfasti = 45 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13446 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.573E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.83766420594733 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.39609611369438 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.92361347352073 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.35571383896151 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.72017237330240 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.24431092054356 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56739351257936 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06164246204808 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22707518369420 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03567377803537 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.71934198121337 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.13809162248822 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 4.28289417869544 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.63338839747229 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47020944203187 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.24455408528625 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61823029755185 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.89002391573817 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25605086180532 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24853687188247 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.04394546196864 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.573E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.98602147265292 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.64194152741495 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.51376071338735 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.67933499164365 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.09633730013159 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.443648585731740 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.79558186605452 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.29760690858995 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56644075566566 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06785196297865 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.13410259170412 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.01595525435372 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.06512231338970 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.70055109824157 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.51918534372897 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.47700876680186 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.09606843466427 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.437636821944467 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.83957996864585 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.34226557210725 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.60667813494448 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10228214140710 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.14986441188920 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.02867367205073 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.12619790675718 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.74155433556161 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.53298052505478 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.43641263789441 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 9.96868734224200 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11743020462661 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.437422721199319 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.86802757536360 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.37438052602582 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.63668774319029 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12793969273288 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.16086903651816 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.03791645641270 at nshe,nfasti = 46 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.573E-04 -- reset to 1.000E+04 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.00021824172838 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.66551331419204 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.50295706119010 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 7.91747211592933 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.26038064734858 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.460453750128122 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.87420826999084 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.33596680685707 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.56088215978503 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05655423556963 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.09422022139072 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00309210582426 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.05908446422874 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.69817199607370 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.53132961708788 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.15826787979640 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.29173782973132 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.464704833350700 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.88581504021468 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.34931009689064 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.57536183305562 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.07110149397014 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.10146650559700 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00793144182786 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.09730606698343 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 2.72347122636934 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = 3.55487792859547 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 8.31166567907821 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 40 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.30869325866092 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 0.466225058573145 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.89610804108834 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.36215037405568 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.58841009375287 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08387537357932 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.10717526117360 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.01150691812137 at nshe,nfasti = 46 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10059 TA= 4.09000E+01 CPU TIME= 7.98350E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.62161222222227 %check_save_state: izleft hours = 74.2991666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0900000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.225E+03 MB. --> plasma_hash("gframe"): TA= 4.090000E+01 NSTEP= 10059 Hash code: 92436108 ->PRGCHK: bdy curvature ratio at t= 4.0950E+01 seconds is: 1.1037E-01 % MHDEQ: TG1= 40.900000 ; TG2= 40.950000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9720E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1037E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.900000 TO TG2= 40.950000 @ NSTEP 10059 GFRAME TG2 MOMENTS CHECKSUM: 7.9182046958168D+04 %MFRCHK - LABEL "TQICHMIN", # 7= 3.79957E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 6.70119E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -7.87576E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -7.87615E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.578E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.87742200000139 lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8704E+00 8.4400E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.89784603539944 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.15437203022010 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.38240144232251 at nshe,nfasti = 36 5 %fp_imp warning: RF renorm adjust = -72.4369318535600 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -104.421826905096 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -37.0880383828356 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.38138134545213 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.24257356298182 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.96029474618074 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 4.17209186870313 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.96946211684998 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.69688472064930 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23114777709267 at nshe,nfasti = 45 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13444 %fp_imp warning: RF renorm adjust = 2.97260397233207 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.97897285389387 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.44514806968719 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 4.27153328362298 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.55784836076355 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.35068813860273 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76426912570898 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.55695781772852 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.92092786675860 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.60676091083529 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.26549060153927 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 2.00174521515023 at nshe,nfasti = 46 5 %fp_imp warning: RF renorm adjust = 3.08859947832079 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.88607458360264 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34909997273999 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.16424143799417 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.58026228748900 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 6.90165785798248 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.42961601504146 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.73994716724523 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.45147070169314 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.89420842037714 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.57973863517383 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.25571092582158 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.13300329306965 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.85840328540263 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.29922664385952 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.18399642033406 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.00634939706822 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.17637307757236 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.46624366390479 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.73566598701129 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.41934915586096 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.87461290771937 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.56422982592540 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.24629974276646 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.15659042467260 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.83677725726717 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.26969365786366 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.19523043544265 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.64023158028246 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.42707802952093 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.49116038062838 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.74112955155348 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.41235198983162 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.86202986075902 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.55377299707851 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23840920264815 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.17156068733966 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.82318361867778 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.25360982538066 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.20679744816560 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -1094.42846115191 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.65464749624417 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.51316618562649 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.75051820836852 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.41451572103957 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.85364379508045 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.54590228178075 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.23182456691443 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.21260665766816 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.87318481642122 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.32419762392763 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.21876138967890 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.77911387034840 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.58798726949059 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.50734595462645 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.74686126606952 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.41628783813420 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.84699792503792 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53939579882613 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22618936769250 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.22587277370510 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.86577684484586 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.30328952748302 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.23205342211137 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 2.85918230931156 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.78933357945648 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.52438506089548 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.75545432161393 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.41972470430564 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.84170227222505 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.53378832449755 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.22127969279786 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.23117841257241 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.85726538765257 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.29050184934599 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.24375454103548 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -373.034632803939 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.98499026423909 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.54386296814036 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76506330867171 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.42511407663416 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.83752876015080 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.52896038892800 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21697685548123 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.26470581216730 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.91037639359912 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.36919899595629 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.25719997731796 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 3.75010210558852 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.87131560022782 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.53989319896930 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76068278742267 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.42731081246395 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.83339690134239 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.52457813583898 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.21315373559721 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.27259520623656 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.90137716087291 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.34657106970757 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.27127229637637 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -933.430175282565 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.05633581043090 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.55527932753975 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76787133461139 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.42998400964745 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.82965856850135 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.52051729128888 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20957111247597 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.30114390838598 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.94792274531275 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.41494976436754 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.28242855475605 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 3.82418223973331 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 7.95835300724355 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.55176530993749 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76339855011742 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43062706945347 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.82591042873311 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.51678145861390 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20641550912729 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.30553139341152 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.93436720641201 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.38685469167753 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.29519257820854 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -302.716716756929 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.14798095167831 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.56724678908349 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.77022426098042 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43236104702733 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.82253012998007 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.51331351169558 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20347550253723 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.33163009769213 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.97941516783811 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.45319726004237 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.30548970566495 at nshe,nfasti = 37 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 3.81264524071405 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.04638241511951 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.56383930260026 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76537732513449 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43233934239437 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.81908326519265 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.51005400717057 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.20074855370109 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.33437059939728 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 2.96263102757240 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.42127030867790 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.31777108584518 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -179.305668892608 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.23921110162943 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.57919835873223 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.77192708960225 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43358957006986 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.81597306202938 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.50702431355551 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19822251203816 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.35924671015075 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.00750381041811 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.48730952340011 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.32721691037684 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -1816.04020940149 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.12963496274682 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.57538094899111 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76663280851855 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43316638579176 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.81276141923491 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.50416016531227 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19586084969363 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.37637633172491 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.03281544078820 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.52166254572477 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.33814409390199 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -484.380969213373 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.09322948842700 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.57310869776362 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.76264580953864 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.43126058517274 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.80938786167489 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.50135625062952 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19361893929082 at nshe,nfasti = 45 5 %fp_imp warning: RF renorm adjust = 3.39031346644424 at nshe,nfasti = 34 5 %fp_imp warning: RF renorm adjust = 3.05201630900636 at nshe,nfasti = 35 5 %fp_imp warning: RF renorm adjust = 3.54658879086921 at nshe,nfasti = 36 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 37 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = 2.34639187046011 at nshe,nfasti = 37 5 %fp_imp warning: RF renorm adjust = -254.854707531644 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 38 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 38 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = 8.08361523211583 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.57200118075271 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 3.75952706361345 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 3.42917333139748 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.80606918331022 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.49864154267572 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 2.19149060402883 at nshe,nfasti = 45 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10559 TA= 4.09500E+01 CPU TIME= 8.14507E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.82419833333341 %check_save_state: izleft hours = 74.0963888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.0950000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.686E+03 MB. --> plasma_hash("gframe"): TA= 4.095000E+01 NSTEP= 10559 Hash code: 28570282 ->PRGCHK: bdy curvature ratio at t= 4.1000E+01 seconds is: 1.1023E-01 % MHDEQ: TG1= 40.950000 ; TG2= 41.000000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8530E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1023E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 40.950000 TO TG2= 41.000000 @ NSTEP 10559 GFRAME TG2 MOMENTS CHECKSUM: 7.9192985431161D+04 %MFRCHK - LABEL "BALE0_SGF", # 3= 7.24494E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -8.52119E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -8.52122E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.583E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0651160000016 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8706E+00 8.4401E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 541.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 541.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13440 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.583E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24702513548216 at nshe,nfasti = 23 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.583E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42818824687913 at nshe,nfasti = 23 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.583E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.27116930681605 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.42213803588691 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.04332115056050 at nshe,nfasti = 24 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.583E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.52102411693338 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.73482044174238 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.07349587543869 at nshe,nfasti = 24 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11059 TA= 4.10000E+01 CPU TIME= 8.70403E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.01527388888894 %check_save_state: izleft hours = 73.9052777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.251E+03 MB. --> plasma_hash("gframe"): TA= 4.100000E+01 NSTEP= 11059 Hash code: 3030326 ->PRGCHK: bdy curvature ratio at t= 4.1050E+01 seconds is: 1.1010E-01 % MHDEQ: TG1= 41.000000 ; TG2= 41.050000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9240E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1010E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.000000 TO TG2= 41.050000 @ NSTEP 11059 GFRAME TG2 MOMENTS CHECKSUM: 7.9203923904153D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11447 TA= 4.10388E+01 CPU TIME= 8.63476E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "PFWAV_T", # 30= -6.30603E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 8.37832E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -9.87170E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -9.87185E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.2111150000019 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8709E+00 8.4402E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 541.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 541.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.48415711654640 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.79977950166483 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.15803821447079 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.71030422613022 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.15890088508868 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.98772695529887 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.11106736579725 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00209656921483 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13436 %fp_imp warning: RF renorm adjust = 3.29401198385903 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.55423487495352 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.00432350881719 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.08759966597468 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.98292162606113 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.17471978936503 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.88249740105334 at nshe,nfasti = 28 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.51889955610659 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.66271782175457 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.22981646559118 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.53702095012172 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.27792447193858 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.30275501428160 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.01928297409632 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.13794327721987 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.03097140681292 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.60936831793759 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.60583156881432 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.15929160144287 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.47710824874104 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.16721587792854 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.22684202325108 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.96421356105573 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.12022986739646 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.00972467940882 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.72926786798843 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.57876494079688 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.11521827687802 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.43944146195984 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.10209736643930 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.16263176011118 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.91236086418768 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.10531529540370 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.23737112156335 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.91967985053769 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.41408672714782 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.76295238189149 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.34470972860241 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.34196548937309 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.07737772474335 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03544433216459 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.06411014706224 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.19180442222154 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05957367264616 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.29968040908488 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.89455845929241 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.38115513483617 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.72891631368764 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.31015566806394 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.27909765320389 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.04702001523087 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02392176189996 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.05738824490787 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.17835667454247 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.04266729309368 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.39765277591658 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.88291559894366 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.35503748694897 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70375731521106 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.26939572817332 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.23010454527967 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.01288463734332 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01255187682748 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.04901037449270 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16521722753738 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.02763254850596 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.79488877006447 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00075933547887 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.457526907943982 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.12562835283792 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56894483400452 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.92417874629384 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.43488077162747 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.37465505786524 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.15380232341830 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.10609692533861 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.10299537712377 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22850284034867 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08129532124509 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.93374265105604 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.457672323100588 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.10329003300573 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54125437376584 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.89756907846823 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.40435950038065 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.32800650137564 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.13257628353986 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09710759896905 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.09499245026281 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.21615536287742 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.06674451087926 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 5.00672569534951 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.458986530193174 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.08673044539127 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.51463786061444 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.87318759187480 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.36937762720738 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.28912203857860 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.10652751507195 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.08723219576744 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.08572499592559 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.20411750773001 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05371732506094 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.38907397574667 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.16235462255332 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.479632834814104 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.31026935135840 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.71386358443879 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.07308289230685 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.53108181471509 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.41980442135514 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.23284955370142 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.15708817183199 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.13174318703061 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.25866122024577 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10163514261142 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 5.58117698890164 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.17446624902915 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.475345680080137 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.29064806187233 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.68299157416449 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.04815811742277 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.50113199305685 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.38034502863265 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.21580119430395 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.14974207279771 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.12322421830777 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.24732034596304 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08878798785335 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 5.67177632912260 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.15267654940924 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.464882705679879 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.26962767545953 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.65259943133387 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.02302598285130 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.46983658422577 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.34655673527502 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.19358859382919 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.14132122581726 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.11377391888889 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23625325986708 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.07729580032329 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01037810464543 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.32639461507587 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.48874476980629 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.85060394617024 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.21099762656998 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.62929089792608 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.47102354264097 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.30779834843459 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.19607342817743 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.15550007541568 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28571570335444 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12121647741814 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 6.20118131691682 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.33854242789414 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.498897612386408 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.46435330686091 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.81582958741421 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.18625971376597 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.59975814373699 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.43666436201218 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.29109441654173 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.18975403127306 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.14689810521209 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27528403187398 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10976849991663 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 6.28814631743150 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.31366267276585 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.489191730007884 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.43588469716432 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.78149356131852 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.16093672513494 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.57128912048799 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.40609115491599 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.27107921089477 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.18268675928152 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.13767747222609 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.26523588733472 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.09958562935813 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.587E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.62937980337682 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.48124188640430 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.65440966344277 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.97898223356608 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.33884695187665 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.72813483475375 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.52581951626770 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.37507240887216 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.22737537158106 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.17625104860949 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.31088067626935 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.14018631653491 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 6.67154919080479 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.48008569179964 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.62476943795255 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.94125767277100 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.31504358967688 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.69947958364630 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.49529752228504 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.35796919030943 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.22157988377321 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.16787469850576 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30134981721434 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12994622283247 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 6.69956527133655 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.44639150434172 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.59131780073715 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.90346944004404 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.28986065964180 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.67311072923179 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.46701421076222 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.33943757319640 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.21563224955847 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.15913287712276 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29230584149459 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12092503480174 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11559 TA= 4.10500E+01 CPU TIME= 8.72582E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.32989305555557 %check_save_state: izleft hours = 73.5908333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1050000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.136E+03 MB. --> plasma_hash("gframe"): TA= 4.105000E+01 NSTEP= 11559 Hash code: 17672392 ->PRGCHK: bdy curvature ratio at t= 4.1100E+01 seconds is: 1.0996E-01 % MHDEQ: TG1= 41.050000 ; TG2= 41.100000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8970E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0996E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.050000 TO TG2= 41.100000 @ NSTEP 11559 GFRAME TG2 MOMENTS CHECKSUM: 7.9214862377146D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12025 TA= 4.10966E+01 CPU TIME= 8.63666E-01 SECONDS. DT= 1.00000E-04 %MFRCHK - LABEL "BALE0_SGF", # 3= 9.38864E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.69478E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 4.69385E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.592E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.2609429999975 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8711E+00 8.4403E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 541.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 541.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = -23.1602909495744 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -202.206948692346 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1176.74097830973 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.73047166156097 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04090403141337 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.17073904349774 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.88861189465779 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.37685777208302 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.74298235139271 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.75061070109241 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.00865735335367 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.25800796087106 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27579876818110 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.08807318460343 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13432 %fp_imp warning: RF renorm adjust = -22.4322224133191 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1624.37632302668 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.15488139035902 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01195904818775 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.50601647909614 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.07074136868374 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.42232807754754 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.72358336680528 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.90595518940713 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00900970999309 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.05198708705501 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06139878101339 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.32667241697208 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33606820981592 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13271651040585 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -24.5332341459989 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -481.797091331755 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2891.92263054853 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.13873847895616 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.41806092581415 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.00731914796556 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.39407168356863 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.67882442573047 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.89582047911615 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00036457327461 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.02584092865985 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04826517554458 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.34002757156186 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.34054386546910 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13403948662551 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -18.9233827225676 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -321.887439779263 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -887.598248186240 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.08719330231976 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.34280635314151 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.94763009816882 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.36290011489815 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63920760457357 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.86139193180007 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.99818959132949 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03535484603896 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.34445167626686 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.34149130294713 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13280242699598 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.592E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -25.3429083142301 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -350.262660324522 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1417.08508506148 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.69003086190688 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.29685701516647 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.85141369987779 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.47689940973974 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.74663011835365 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.92467316246573 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.492882932183843 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.03450100727859 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08871499181527 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.10404518484528 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.08622499181305 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.36079169959288 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37698934776670 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16200771000401 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -23.0163768195442 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -254.001486739920 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -694.068159801697 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.61748820322829 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.25299918441836 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.76635806457963 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.43727834341047 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.71891651573564 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.89172667981504 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.494287932011421 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.99554767753328 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.06464389635032 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.08387740142138 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07840946550844 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.36041641032167 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37478861478620 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15869037710080 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -20.8892863064132 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -187.348179064697 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -439.261921600466 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.57028363182813 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.19189133277079 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.70433305027967 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.39463187304113 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.69238321357242 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.86021834819824 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.496242749261371 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.95474805847737 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04106858024156 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.06100041160537 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07103557331122 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.35770573604003 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37201559267099 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15538589624317 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -19.1030854813273 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -148.096828705159 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -322.244978517481 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.53732655529329 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.12894925633205 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.64852221562332 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.35334341539183 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.66602678670575 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.82917806733902 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.498826175662503 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.91493611752461 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.01806089924259 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.04041677983240 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06485224603305 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.35401288049141 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36859294909513 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15173551695612 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -17.6433003068570 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -123.318815002170 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -3178.63607303249 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.50806923561579 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06682321007500 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.59694282261520 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.31216474999655 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.64047243313207 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.79930117390435 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.87645262665633 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.02172841717847 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.05960261035699 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.34974578052762 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36477545801014 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.14785719322756 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.592E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -19.6948250664032 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -123.080532046500 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1397.67217218403 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.08103856684048 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.46496830854206 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.07002619941896 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.67442802638932 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.92199734957554 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.05234658334627 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.07659947452535 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.36088500425942 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.34215393605987 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.13107136462947 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09536628436359 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.39766700392808 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.41794301043868 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19488269566140 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -18.8070219276239 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -113.285518199596 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1004.64125437319 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.07050532540113 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.44275102727020 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.01870052116597 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.66102930254125 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.90375218880693 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.02757571440205 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05904083865703 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.35114344078663 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.30465897984641 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.11990458517893 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09223792691226 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.39360079040794 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.41312596277217 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19005650676829 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -17.7332738809172 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -101.496377338845 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -712.487413824944 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.05937142200952 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.38976629257810 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.96761811123472 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.63270538114273 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.88603130519940 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.00184705043731 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04366965113385 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.31730315768280 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.28359892677007 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.10396140693589 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.08840563770140 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.38885600609457 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.40895236716054 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18583719764150 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -16.7202230523794 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -91.4338702400415 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -545.394004495618 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.04097027392718 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.33036632664834 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92088731558863 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.60301592376601 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.86732298835850 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.97606769436697 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02843149961239 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.489946515451376 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.28081645472486 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.26204374153689 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.08964814120539 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.08511083821033 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.38397018858172 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.40467523536751 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18160824651353 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -15.8233028388207 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -83.2985551074943 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -443.310704560981 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.02827573786551 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.27112538477425 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.87768952097397 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.57456643575650 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.85110021647260 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.95144465640089 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.01427234508892 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 0.478836921396269 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.24540044385325 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24135827062529 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.07625035045016 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.08222815357074 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.37906413482096 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.40039233281929 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.17738507027556 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.592E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -16.4087050872472 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -78.5962836072907 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -355.326406735687 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -4883.46313942914 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.54638291777893 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.62272997606612 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.30761689120289 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.90622465037742 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11498235815754 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.471688976057694 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.17889027656699 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16446069241089 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.19921137565914 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.18924477468132 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.16138114095947 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.10613586454043 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.42433376543972 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44917256193877 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21974530909638 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -17.7731423955720 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -87.5827852257263 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -426.548765036676 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -15137.1656462622 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.59207140735868 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.60348134884174 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.28206770760186 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.88631010948674 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06092886439540 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.475398187944951 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.15435149435597 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14512077458481 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.14398925548337 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.16680176290137 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.14869064255223 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.10346343428632 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.42025497031782 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44454855971724 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21503833366983 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -17.5616396457416 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -85.8480493224466 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -410.001603412171 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -10229.6176038033 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.58521171224780 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.55406634547253 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.23327208139589 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.85186849406306 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.03020909007516 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.479404984570013 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.12474780621276 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.12843166226904 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.10496721305798 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.14474328397829 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.13693730686047 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.10091127268824 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.41561357494134 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44053663848571 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.21095518507926 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -16.9489426568754 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -81.3217616459981 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -371.322204998229 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -5592.94224185520 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.56993703118343 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.49732030315656 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18700771808066 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.81837519976990 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.00516004079450 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.482928554631995 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.09703074203798 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11281303757209 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.07155319096240 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.12538046232789 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.12573200566180 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09874260756674 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.41097087461194 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.43655017072054 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20693918749372 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -16.2670893880974 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -76.4958710591161 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -333.672089587262 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -3629.90900636496 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.55178582431928 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.43715358486508 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.14210263032713 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78628166512579 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.98338076797199 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.486290844413503 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.07093771742160 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.09807818381201 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.04077468916699 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.10744158434293 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.11514293910140 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09682021716350 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.40639196349429 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.43264854572553 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20301481960367 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -15.6108605083830 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -72.0527008238375 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -301.899459470521 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2661.24105576035 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.54208149597923 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.37742466626005 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09973539697266 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.75575683447151 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.96359575454312 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.489622908307433 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.04620443524767 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.08408374287815 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.01168336089722 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.09047040864422 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.10513855408924 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.09509897453184 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.40189400560504 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.42884605719169 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19919040881726 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.592E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -16.6946255002513 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -70.6907646746000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -268.784152174245 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1785.82076384222 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.09703694839784 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.81597355832772 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.59638509399420 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.13580970257672 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.25647752119475 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.407132313494741 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.29244280967045 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.24077058624940 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.09235148618128 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.13652877585437 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.19835255913077 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.11885062424957 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.45184373095124 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.48204718647200 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24467806215390 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -16.2355545368441 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -68.3001976439877 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -255.910560219496 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1616.30393033334 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.23764202075154 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.80054847446362 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.58336944742651 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.12325809691051 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20376047330067 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.413372911967480 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.27550605924809 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.22434126031498 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.05285256691381 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.11589727444010 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 3.18952603467877 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.11691327065038 at nshe,nfasti = 29 5 %fp_imp warning: RF renorm adjust = 2.44848613196369 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.47815093848374 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24041609162426 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12059 TA= 4.11000E+01 CPU TIME= 8.36640E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.61164138888887 %check_save_state: izleft hours = 73.3088888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1100000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.136E+03 MB. --> plasma_hash("gframe"): TA= 4.110000E+01 NSTEP= 12059 Hash code: 65970892 ->PRGCHK: bdy curvature ratio at t= 4.1150E+01 seconds is: 1.0983E-01 % MHDEQ: TG1= 41.100000 ; TG2= 41.150000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0690E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0983E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.100000 TO TG2= 41.150000 @ NSTEP 12059 GFRAME TG2 MOMENTS CHECKSUM: 7.9225800850138D+04 %MFRCHK - LABEL "BALE0_SGF", # 3= 9.44871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.72376E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 4.72495E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.597E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.3809699999983 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8713E+00 8.4405E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.0 cm.B= 4.1980E+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= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -18.7599646980009 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -123.715156153088 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2039.67560897463 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.20897667567008 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.68516969484186 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.40465751563995 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.06232210679319 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.18321996570765 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11133613758371 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19092121197557 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.04688564105679 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14143468690834 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.77314840857361 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.78363061010137 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.40591732990432 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36388872352028 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16372520995106 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13430 %fp_imp warning: RF renorm adjust = -59.6858625117797 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -345.751696756618 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -6115.77180820339 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.05352050822911 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.34050704389931 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.13997663088515 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78869932772109 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20986334363509 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25315361160806 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.15492315751684 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19905583684388 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.77612921509550 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87057305292844 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01464387872814 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.45600404695301 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.43291409084192 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19740566486554 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -45.8071876099966 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -238.230426666761 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1572.19731050372 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.94370339167306 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.30116437821239 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.11723183556002 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78778150436735 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.22254226945549 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.26225185097238 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.16109379166680 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20365675481517 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.76284025695362 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87491497050286 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02878139740020 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47202919958279 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44198127332353 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20118448670316 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -39.2337598001755 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -189.550881772740 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -951.333226281638 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.89513057292793 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.26970553301824 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.08571039439081 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78723581427036 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.22161198179658 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.26177021601367 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.14723047184289 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19627330192091 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.74312163288477 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.86717967198887 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03648435006306 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48220694892925 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.44683726040973 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20163034136644 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -35.5553538997616 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -164.167448045315 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -727.771104796552 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -11293.4094217674 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.88840741538434 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.25109271034632 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06927746295223 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78700528511356 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.21646203186905 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25834137249840 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.12851214878939 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18576358002196 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.72108595003447 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.85697731517419 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04142072359918 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48970264821704 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45060799872815 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20148049051621 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -39.4976438793521 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -187.146097708205 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -900.229695697784 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -82258.4575912983 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.89527028915643 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.24051387401152 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06248713926170 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78666449926394 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20900395415682 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25384824055420 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.10902863568241 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17460696817068 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.69850636209734 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.84635712333995 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04473074611575 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.49543063055274 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45359728217521 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20115817490477 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -39.4774442966001 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -187.043181321710 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -894.500912867284 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -58107.2582613322 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.91534163762260 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.23133298974516 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06147655299862 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78639836373490 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20090287427680 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.24913682984744 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.08997760048751 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16356123549948 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.67614837265961 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83591019008442 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04688142391134 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.49979628770579 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45591454624709 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20071855370757 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -38.2828107614801 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -178.769469113407 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -819.695122442681 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -19301.7552370514 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.94082472064030 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.22195762180130 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06057901577778 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78645981574786 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.19274313465050 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.24446527190591 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.07168271309204 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.15286607456686 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.65435616118094 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.82584670671809 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04814360646197 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.50305917702055 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45764742235078 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.20016339662985 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -36.7670279345412 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -168.337197864672 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -734.282371261684 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -10106.0038008384 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.96712760386575 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.21201083246471 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.05996240785762 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.78642771372180 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.18473993121169 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.23989598562766 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.05418702654746 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14257183110932 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.63328255252706 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.81624542840013 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04870872028889 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.50541772047266 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45887674007193 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19949323629548 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.597E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.17030552378587 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.08055038555221 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.98278695313823 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09868799317054 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -38.2469865276725 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -155.226292876048 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -576.004561738064 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -3970.00457154523 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.64890530091726 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.10311241664369 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.82202163048505 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.42434818892212 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.39811670998828 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28269425254803 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.65905993622561 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.53559687900087 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.36673819119547 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.33755926097435 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.81777348191227 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00819416124476 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87786524284410 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03695340920675 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52917441916857 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50293003181956 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23375271556119 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -36.9722717255494 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -148.357801515824 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -537.291348021238 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -3401.22680789586 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.68033784642585 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.11462262721941 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.74762443290424 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.39585557001409 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.32848865986511 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25387979597713 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.62316665599248 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.49815945186211 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.34260598449754 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.32283228228554 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.79814204313938 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.86968952753979 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03793468664659 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53036401114649 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50269015360052 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23216325748405 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -35.4774220523016 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -140.315284534607 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -494.415614501045 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2876.56258604583 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.69913433721614 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.11417213064147 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.74762535955982 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.37668344431610 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.32237237289669 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24364835379294 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.61414256641671 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.49348417490065 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.32331460652218 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.31135824471526 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.77748948292632 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.86147428653501 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03710630057918 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53078073153651 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50256551737143 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23077282172322 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -34.0891550780723 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -132.927242273867 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -456.891076843945 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2482.97636621718 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.71834229594253 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.11171606888240 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.74454045506255 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.35692872622253 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.31486012699964 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23298339971044 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.60425203032381 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.48723606941223 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.30598756814260 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.30090624027080 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.75781740205006 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.85364365793484 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03589945158489 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53072504738282 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50221572726641 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22940459117809 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -32.8422753736335 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -126.420197453112 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -425.292967769537 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2189.97268212126 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.73540125951034 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.10686091285347 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.74129713700242 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.33759264780370 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.30870481604295 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.22264266021790 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.59484456587855 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.48148182563010 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.28975329022022 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.29109469140797 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.73903831272339 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.84621707500380 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03449365670513 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53033827763592 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50169124758483 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22806397833534 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -31.7274587597192 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -120.724974405145 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -398.715129267347 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1966.55105406961 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.75001487106889 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09983159240672 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.73760029474801 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.31848666259585 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.30316383878385 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.21222394358549 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.499687670448147 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.58579790278895 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.47601706258349 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.27429498501784 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.28173685047523 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.72104645973011 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83917148130467 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03293765635892 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52969149546244 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50102353103663 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22673919449125 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -30.7251419681760 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -115.706615727699 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -376.093077289228 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1790.88833095370 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.76200976181221 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09117576740349 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.73406009702895 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.29839477240338 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.29823116209568 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.20174311504487 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.492082579784182 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.57712374734067 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.47084087189430 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.25947288509595 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.27275281309572 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.70375516854038 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83247829877833 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03125895375899 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52882919253124 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50023163675249 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22541851976738 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -29.8206166349793 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -111.261225769894 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -356.649045382699 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1649.45101083262 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.77170974930373 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.08106847442629 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.73143181485116 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.27832057382462 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.29461689378757 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.19100957605663 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.484674699376418 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.56886634280878 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.46596289465252 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.24520762969101 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.26409589285213 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.68709655112581 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.82610878056018 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02947919833839 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52778506023380 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49932985393214 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22409482841313 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -29.0004867392796 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -107.297793539615 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -339.769450240052 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1533.21388685393 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.77832066132520 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06946171048743 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.72816983311088 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.25839047638222 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.29111986328017 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.18020222788426 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.477530449662299 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.56080944032774 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.46121392270818 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.23141059583636 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.25571445642276 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.67101545788169 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.82003690775077 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02761665776294 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52658714443622 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49833216137759 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22276486656480 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -28.2594348077198 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -103.768859938090 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -325.087230635018 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1436.67939729708 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.78255043930462 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.05627960699165 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.72497622938521 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.23904380487973 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.28783445476779 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.16903686132557 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.470625820288827 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.55296946430779 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.45662247815101 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.21804626946833 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.24758967718184 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.65546709500575 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.81423986193883 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02568701360465 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52525947748516 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49725139402553 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22142789442156 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.63107646327352 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.86995416086356 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -27.5833974706793 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -100.597237256611 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -312.163950583777 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1355.01850732999 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.78592214441712 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.04254328113241 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.72158048875748 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.22022475960240 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.28464431977464 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.15735126871370 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.463956933206988 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.54533302222121 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.45219356821714 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.20507707594792 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.23970389573631 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.64041657376688 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.80869604575080 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02370289127686 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52382296609463 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49609942140432 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.22008460277788 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.597E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.31525517731368 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17874719157702 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.70487569232716 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -27.5519712166785 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -92.0674708896992 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -266.948997189056 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1063.04493890949 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15216830894827 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.56709623271999 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.18280405462293 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61497186403280 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62648809737379 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.46439198671147 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.86996448091961 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.65116671788589 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.47134915817071 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.40498339538531 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.91508755379927 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.09865188007519 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87966626206221 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04092347674895 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55721221597865 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53789662396645 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25654405875468 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -26.3785622821335 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -87.8213176821995 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -252.611034414472 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -990.491774896303 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32428466349131 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.67894391672015 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14218672993860 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60358076530035 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57467308338935 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.44053062052892 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.83792606880755 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.62503534506702 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.45544023456783 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.39460949015095 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.94542100023259 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.09613830677607 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87552240770040 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04042671321294 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55561649751210 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53526571930417 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25346539983823 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -25.5215732574384 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -84.6603455306408 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -241.970781707312 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -937.844504513009 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34292134876319 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.67706532044983 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14611810833033 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58973186350384 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56889764013260 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.43422228736723 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.82849370597883 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.61905838632611 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.44036732569842 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.38543830498912 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.93213125118464 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08743000908989 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.87042513159212 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03837320310770 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55384820691065 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53341999817429 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.25116965177555 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -24.8554907941846 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -82.1497243335461 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -233.495541687239 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -896.500719126056 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.37475392616205 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.67930632205546 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14604354692008 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57466432359680 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55994362738149 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.42617717111870 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.81825251605469 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.61203741233656 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.42610254742922 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.37673509798113 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.91700233249905 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07812488258760 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.86560401598735 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03617095191221 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55198468905559 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53168157482389 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24918859041451 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -24.2976348891450 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -80.0267478010704 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -226.345152939907 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -862.104797149323 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.40347804594331 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.67852628521540 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14491329401800 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55823777186979 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55143422089293 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.41817579842426 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.80838656439925 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60552601998130 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.41243913299414 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.36838641315123 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.90179994153465 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.06885631861411 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.86095025446829 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03396485177305 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55009264257356 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53002504047248 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24742649825979 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -23.8046880223768 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -78.1458070360513 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -220.044415944715 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -832.214341774769 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.42729951232112 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.67480805962304 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14285267400118 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54172931954936 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.54314978976184 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.41019857677571 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.79872691387129 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.59929981056523 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.39925300707296 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.36032177758225 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.88688592752304 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.05978102371187 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.85644376095963 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03177042875445 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54819085879499 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52842867856584 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24580748250948 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -23.3528795014002 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -76.4259634009933 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -214.326338578355 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -805.456409590482 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.44722138188290 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.66895316189640 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14017521191033 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.52512142852805 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.53532203663422 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.40235211931847 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.78939634429942 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.59345027629056 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.38650710225296 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.35252016592869 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.87232816236046 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.05092796502738 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.85207959644836 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02958737101322 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54628182263924 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52687136787738 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24428201134048 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -22.9312636205563 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -74.8278365831985 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -209.054510432210 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -781.102375545160 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.46314972733788 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.66113407823549 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13659569256385 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.50820281486728 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.52748109602920 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.39440439788968 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.78022501029340 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.58774715032770 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.37410525687149 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.34492830090934 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.85813340814744 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04229810802751 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.84785397064842 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02741480796691 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54436548037041 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52533863292914 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24282098778475 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -22.5350565878581 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -73.3332667582004 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -204.161603562525 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -758.767276363051 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.47601438176352 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.65144610430863 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13263224840574 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.49155072868699 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.51986954557058 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.38658725124732 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.77128351597013 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.58225196082551 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.36201010138958 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.33752497594882 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.84428780874886 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.03388215916448 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.84376075051341 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02525283103410 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54244279671223 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52382262644180 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24140785596428 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -22.1619540301513 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -71.9326203339672 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -199.608769354710 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -738.212198514228 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.48612022304410 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.64036574266795 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12823308239494 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.47517572331849 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.51261675788173 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.37888852291037 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.76259961825517 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.57699786294188 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.35021923054136 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.33030590061394 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.83077109954833 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.02566698308875 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83979192788476 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02310226118745 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54051599281029 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52231970409889 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.24003301192440 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -21.8100497114469 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -70.6177103423864 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -195.362888672304 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -719.236512180630 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.49400128916773 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.62826942147360 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12369329414087 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.45909034122928 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.50542209721895 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.37102780203066 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.75406104222769 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.57186498094399 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.33868394717952 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.32324468420677 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.81756600428108 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.01764138179917 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83594046835695 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02096424378858 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53858792786932 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.52082868208009 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23869060045971 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -21.4781093830072 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -69.3828303301369 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -191.399837085126 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -701.689827739405 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.49954053348817 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.61518549021958 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.11859088514239 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.44325542936761 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49850782405902 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36309179959950 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.74577155517109 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.56694414364242 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.32741214115396 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.31635002320229 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.80466031532929 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00979718626763 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.83219946357729 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01884011157202 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53666169281553 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.51934958348960 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23737677384982 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.80658808287703 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.16922731332416 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.1658639164752 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -68.2258098417950 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -187.707973302059 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -685.484903527733 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.50261612665764 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.60088405369357 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.11289518344399 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.42765330789348 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49166783160212 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35512048717431 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.494834112190649 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.73757258565444 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.56209587704834 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.31638261203921 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.30959143624768 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.79202769033071 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00211868334774 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.82856209466993 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01673112645199 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53474034512054 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.51788295248829 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.23608872920575 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12559 TA= 4.11500E+01 CPU TIME= 8.02356E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.93073583333339 %check_save_state: izleft hours = 72.9900000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1150000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.256E+03 MB. --> plasma_hash("gframe"): TA= 4.115000E+01 NSTEP= 12559 Hash code: 107508605 ->PRGCHK: bdy curvature ratio at t= 4.1200E+01 seconds is: 1.0969E-01 % MHDEQ: TG1= 41.150000 ; TG2= 41.200000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0969E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.150000 TO TG2= 41.200000 @ NSTEP 12559 GFRAME TG2 MOMENTS CHECKSUM: 7.9236739323131D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.11922E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 5.15093E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 5.14985E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.602E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.55809099999897 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8715E+00 8.4406E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.11087118798493 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.24464623473535 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.431494877320454 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29327162225443 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.457713492348475 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.37934805633350 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.475884663484012 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.37030165888601 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.485129165293863 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.30446710477810 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.479795416172865 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.20163827214213 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.459910213266338 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.56011456586188 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.41049108233691 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.92097856426487 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3.96518895011699 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -9.93562028606342 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -23.6660020491539 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -56.1447828327252 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -135.113678265635 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -332.352893271695 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -840.015142175469 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -2194.66263944261 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -5979.29344006720 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17228.7766732012 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -53802.4987730338 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -190994.028191231 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -814597.619540723 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -7745599.96558632 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -5.66635711082515 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -12.7228733041795 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -28.9218366840615 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -66.5958307984129 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -155.600247176916 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -369.428773576888 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -892.852404823670 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -2202.43411105028 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -5567.15075876901 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -14507.5017661070 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -39341.0833659783 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -112732.844233784 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -330293.269102523 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1185264.40676345 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -319.061501124610 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -41.2037971697095 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -52.3598630774799 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -76.0049767255144 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -120.663042456815 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -215.482857254670 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -449.998193709079 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.88776291746438 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.17931986654307 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.55503108366170 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.92851923068130 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.484992912962332 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.58676129923592 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.21978741464865 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.27753025338934 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.55698227213079 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.20930828553350 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13426 %fp_imp warning: RF renorm adjust = 6.03605993682199 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.71186850989503 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.49181307756311 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47882497399407 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 8.52137541838594 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.02837433135205 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.89313086075651 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.41778919869903 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.53523221042949 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.04858751188779 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.77979541468508 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39767838746401 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.68415430164933 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12160224188096 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.19476136128635 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.602E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.32221890143702 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.02643590660311 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.91066519513457 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.80881526739621 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.58022672375818 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.85400586706391 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.62120685718869 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.59451033831431 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.44888825770991 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.69342688045988 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.17476918244036 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.86642707060659 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.38897427543739 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.48364441206987 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11867525986046 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11379380193985 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 3.84510040711141 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.33209493464971 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.81688686945679 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.68425063902685 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.34851163913246 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.71391810484069 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.61247806493451 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.46431314772053 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.76023495755942 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.25349908737446 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.90775210124878 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.42313827115745 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.44285737824847 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13828116855960 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11137293306562 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.602E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.17089359803391 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.51559488399045 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36022919919355 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.85131877303284 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.83244988021554 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.65193371650470 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.49909075848786 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.79717516511521 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.25024524659784 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.96331428430727 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.43834602373389 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.44437628840800 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14376981475791 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10445200496797 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 9.62145327779460 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.72006619325648 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.05665847859524 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.78560037531087 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.60028635945971 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.46116731487098 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.79667319511390 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.22055821960601 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.97460372155450 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46560106144845 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.42686806202755 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14701408842686 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.09978965508026 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.602E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.93249488470341 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.78490005091343 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.94857514256243 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.95778110226104 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.70380279244424 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56660647807197 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.96180697914212 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.29236303241862 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04091057877672 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.01930901353139 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.01181120813157 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.47888227051058 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.44041321319838 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16715485107284 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10358302064251 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04815598843949 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.99512280206289 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.05908484542023 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.88535500548531 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.64533426601085 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.52444574731679 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.96262519243046 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.24462958688777 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03142835738315 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.01161742037934 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00660878895126 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49823967703127 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.43158984675903 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16861005232168 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.09888644859253 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 13059 TA= 4.12000E+01 CPU TIME= 7.69087E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.10430666666670 %check_save_state: izleft hours = 72.8163888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1200000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.256E+03 MB. --> plasma_hash("gframe"): TA= 4.120000E+01 NSTEP= 13059 Hash code: 112752145 ->PRGCHK: bdy curvature ratio at t= 4.1250E+01 seconds is: 1.0956E-01 % MHDEQ: TG1= 41.200000 ; TG2= 41.250000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7880E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0956E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.200000 TO TG2= 41.250000 @ NSTEP 13059 GFRAME TG2 MOMENTS CHECKSUM: 7.9247677796123D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.31891E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 5.64072E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 5.64173E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.607E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.54195400000026 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8718E+00 8.4407E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.5 cm.B= 4.1980E+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= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.54954182833821 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.78927047747472 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.80312086683674 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.90817827346052 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.63316284928447 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.10303676576788 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -13.9412944248403 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -37.2078867652079 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -125.297546757664 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 22 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.43831690992922 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.20603410888197 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.75170686752364 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.462691176581099 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.11137627708648 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.59378304445739 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.31608958839027 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18151511288456 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.08049246454271 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.13335990781943 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.22070096425418 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07855089855244 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.37415598153209 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.32937460566058 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.05699407759489 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13423 %fp_imp warning: RF renorm adjust = 7.39090741981962 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.93052754095932 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.95922582619277 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.44981373274712 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.86076780286428 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.17941666494864 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -39.7895736819234 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -195.191905336314 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -1182.40728786374 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32550794237153 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.09008747860416 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.41987682833277 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.37534217758207 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.451536496475733 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.50147500923987 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.39860946345869 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.97587975962615 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.08849896454944 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.14663852969615 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.15149652869321 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.45100662601678 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.12513301448617 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.42449483401128 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33046118557487 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10172147435853 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 7.63966334521006 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.91562513544416 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.52385690455370 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.83275421996887 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.5586952905185 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -417.388027369009 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -207.774774383609 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.93544604921720 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.30041797499690 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.27999337538208 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.446454558387366 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.47043129865502 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.38796252841954 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.94819191419204 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.08147917629523 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.11532014391688 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.13426309880165 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46928829863891 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.15450103592879 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.46153109847041 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.34238474759212 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11100965504026 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 7.64845266262297 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.01156718659053 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.62708433132978 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.87520202755029 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.6458314302598 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -38.9164202735038 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.66270979763910 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.24192883288965 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.24305258343286 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.442539520708803 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.45143655354613 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.37971619788998 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.92967986760489 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.07431325232888 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.07358623957448 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.11162277219709 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46919039514749 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.17405003550690 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48704317891679 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35242506004356 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11530912368856 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 7.80826322369240 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.11781172040356 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.72680718226539 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.94233535512300 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.0555227078102 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -57.5767916165632 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.46261490616634 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.22179358349763 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.23016126943281 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.439986638643219 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.43734907642779 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.37270069469306 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.91354949699798 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.06658931690210 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.03457642553227 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.09006166056144 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46614014214037 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.18856953161336 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.50658118867525 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36126640492430 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11794956486859 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 8.63798257652450 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.23724714181471 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.81645873710117 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.01777429258643 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.5019738471210 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -65.5402037906056 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.37831677908467 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.20328870102106 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.22607032653466 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.438363482290195 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.42576978407761 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.36640850464489 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.89799420472184 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05834466210568 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.99932896443645 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07026107152768 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46229918850190 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.19959323483000 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.52202220144983 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.36862483786588 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11968270367869 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 9.52463081174815 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.30383258595716 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.90067240045887 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.09265900443212 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.0602186996680 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -69.1735911739889 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.32300476381317 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.19266924664387 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.22654301221133 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.436982248448458 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.41494893357978 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.36032218600390 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.88245980760467 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04968630108812 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.96730023755969 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.05206034143557 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.45812528191780 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.20797698129940 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53425673702919 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37450714162572 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12076392057315 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 9.06720628896714 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44786257168118 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.98106919152627 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.16560513121739 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.0802434066842 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -69.2168185866351 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.29037963399588 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18887594503324 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.22948794067637 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.435813708379350 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.40460014174267 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.35438730548822 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.86692225370721 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04078706539939 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.93804128614122 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.03529891975218 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.45383959719586 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.21433358657373 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54395978705108 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37918710116973 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12135311280938 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.19197640185332 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.03233879528671 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.52966051515055 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.05423179297844 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.23680139254591 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.7772284697289 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -67.0559562891832 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.27275858382639 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18876873893962 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.23394405258736 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.434851458364418 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.39544432335460 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.34888980034677 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.85150030605594 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03181068421000 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.91114007624004 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.01980253796899 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.44957049036663 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.21912019263690 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55164771888523 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.38286009067020 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12155863616196 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.607E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.24361830535487 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.21306172575294 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.86105822319423 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.42363523206239 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -73.6419241330637 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -79.2058969208942 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.79312032523815 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.69366687513820 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.27133176353018 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.03825729059688 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.483246791634487 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.04843770397432 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.63125356938625 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.00102230378220 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.71653690960189 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.23942670170318 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.27100739554886 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.05924644034091 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.11239591069779 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.53593388642733 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.26707480128791 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64119053551044 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49448489535153 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16458106988185 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.32252508863884 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.08002841808500 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.52137631799946 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -38.8272036731478 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -70.9890462505182 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.47484123290187 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.64691449415515 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.18895642790735 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.02119803124268 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.483117333095956 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.15901536534552 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.64169651972536 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.03458834913335 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75086382299760 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.23935703377164 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.27004754411225 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.03604855280401 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.09857715816566 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.53043615787629 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27115609755646 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64615623367012 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49605871462202 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16392590432836 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.55118082000763 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.17617584282181 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.63093379638591 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -39.8540736891434 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -74.2310467700348 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.38598041429850 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.61886457827978 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.17294904473667 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.01218053425821 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.479498140145225 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.22163937824935 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.65664460274535 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.04230659392048 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75659168285632 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.23058199231535 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.26491997883207 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.01281062975262 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08492845486092 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.52554969925233 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27310222545136 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65000324352716 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49763720712792 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16327873118119 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.63445321360784 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26188574656143 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.73336576848550 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -39.5095167637590 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -74.1833300281482 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.33847237058304 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.59634996515954 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16739027738144 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.00243523660719 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.475102141044491 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.25398045691790 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.66225412589425 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.04191650882451 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75659639348575 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.21895703422483 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.25812450876234 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.99110460008209 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07222336510814 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.52116196459941 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27437090079509 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65293455896710 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49871590802965 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16247330253438 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.71139440718070 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.33887600469199 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.82756021982635 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -38.3126568879822 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -71.9521063913887 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31373959604954 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.57677238593082 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16599957598794 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.474422449583624 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.27341960816628 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.66416380712816 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.03820983835049 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75430967752989 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.20638776559030 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.25068884978944 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.97087980233503 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.06040036347145 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.51712833129952 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27517506026421 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65516924046652 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49941334424571 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16155141683313 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.79019498203412 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.40916009201664 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.91430829747481 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -36.7086984918451 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -68.6228520906233 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30340553320112 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.55879629831608 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16422407300688 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.474792471723483 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.28495011100371 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.66367487271220 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.03245804308696 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75067146275631 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.19343632054877 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.24298073775666 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.95203839562811 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04938032022532 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.51338126774183 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27560821288032 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65684273558951 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49980680266670 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.16054098951655 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86741197191362 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47253162757491 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.99421922895176 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.9925702429915 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -64.9353763814608 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30260229627127 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.54184993682558 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16316765037944 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.475133261077595 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.29151272608940 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.66179829633827 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.02528106541279 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.74611558741987 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.18040423355185 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.23518385149488 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.93444174497352 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.03907451930549 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.50988313939465 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27573644183081 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65805093009167 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49994978485570 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15946057047711 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.94024442323925 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -371.573688639243 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 7.26624744010547 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.62108519898949 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.41354448407510 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.06648604991565 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -33.3200749372602 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -61.3051158718193 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30825438893835 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.52562799598164 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16297601686941 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.475544656616188 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.29483909240527 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.65902487409516 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.01712218888078 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.74094331154154 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.16743280305516 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.22739411925753 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.91795613004684 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.02940344235553 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.50661005681436 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27561244667711 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65886835239447 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49988308898681 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15832345774348 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.83589267475762 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.34489634074582 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.07402053244045 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.7565248596556 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -57.9321928994102 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31872522856957 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.50996219889425 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16364449795843 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.476030090164723 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.29575707418768 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.65568767904645 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.00817773346992 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.73527710015524 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.15459036826306 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21965937687052 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.90245875272802 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.02025325670827 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.50354364981214 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27527930954817 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65935565136447 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49963933550884 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15713987651927 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.93463960727993 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51024708624240 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.13639968563421 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.3255927883668 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -54.8640990013900 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.33063345964232 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.49472422905645 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16465317351019 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.476594678186174 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.29477918898871 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.65187251573025 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.99868548932577 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.72926695531237 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.14192450193617 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21201378440311 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.88784538607015 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.01158350749804 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.50066890778205 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27477243496939 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65956322248882 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49924529834641 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15591810664469 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.01584372415603 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -162.180181722405 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 7.46132123159364 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.73018999918919 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.49688868343922 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.20331087574057 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -29.0243596555470 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -52.0994450852264 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34328676504343 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.47875806382893 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16581638918816 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.477229076614563 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.29239336652792 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.64770047299002 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.98888990002848 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.72306168760916 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.12947233676801 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20448388416053 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.87403738319179 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00337414394946 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49797282730311 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27412103949998 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65953345966787 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49872330803974 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15466616197285 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = 4.90963670746106 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.35460167465627 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.90052512570420 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.39768173925292 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 3.20004025653909 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -27.8416337155767 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -49.6253300526364 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.35746795846309 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.46262138989499 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16716510847262 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.477922512393158 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.28887032777668 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.64326259493575 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.97890464329651 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.71673320077432 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.11725194613784 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19708315658766 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.86094486653378 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49544217235433 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.27334909455063 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.65930216835723 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49809384124059 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.15338602239864 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.607E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 9.18693891220528 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.37164043918612 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.51290471361398 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 8.34457334417729 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.15306664073899 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -44.8989654030432 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -69.0737747778371 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.87772408906688 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.98625768294098 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.55576985422284 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.21769634493209 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.53843873912897 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.86841295019813 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.29302237881492 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.90830991070656 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.32911239091141 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.32734964710375 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.01201272960228 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08875173648682 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.54986899347086 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.28569034000684 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69166177403218 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53740225983612 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18853128715871 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -93.0785895474104 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 10.1255437446283 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.35225303478148 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85341443405652 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -84.2106399805210 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.70229356009354 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.90070800484542 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.89844649028820 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 8.61723239392822 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.19279567178337 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -35.5283393199069 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -60.2875484752729 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.77556263576585 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.96752532001162 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.45441760747749 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.20365097318354 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.52569614037026 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.84371551966318 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.25595011857856 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.89698828202526 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.32152747888892 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.32218154626357 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 4.00396872139730 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08322827349146 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.54661508357420 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.28609308258752 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69125303697872 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53614893312596 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18706433279971 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76207595485841 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.07630653755189 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 8.56829794971437 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.22977621203516 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -33.2697008685267 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -56.3590806327682 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.79301176140623 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.95425788509076 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.44567754603822 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.19314067563747 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.499747431069685 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.52764566903538 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.84242509695852 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.24956371719344 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.89252088956403 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.31158805732701 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.31612126881120 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.99322902738132 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07666531063649 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.54392075634566 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.28514613001572 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69076602303711 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53539413860572 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18577748862005 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.11984001391910 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -94.8134646087030 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.85985489237391 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.99942649915140 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.01457898776955 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 8.91046153717264 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.28932083905445 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.5714627668571 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -53.2512191960419 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.80988617358768 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.94055762588289 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.44112642210471 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.18322814847998 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.495103378254732 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.52568644908674 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.83931185495425 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.24187740774195 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.88760793485101 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.30132465749553 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.30985529340142 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.98227331733645 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07006654812863 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.54161329798096 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.28409116197307 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.69010093173256 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53452716716363 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18444061295979 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.24357534722502 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.15612482847032 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 8.90864975791872 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.32390084980204 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.1551524284618 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -50.6413124633325 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.82983862514707 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.92706070567382 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.44144009639421 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.17336366988868 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.490697975655436 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.52281015300143 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.83619448723740 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.23388076023918 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.88255732964878 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.29098779919941 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.30354428191189 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.97148360739135 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.06359235702825 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.53953460064830 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.28300663019376 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68933130409134 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.53359187065985 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.18308397911909 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 1.999997039092705E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 13559 TA= 4.12500E+01 CPU TIME= 7.79481E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.36560055555566 %check_save_state: izleft hours = 72.5550000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1250000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.256E+03 MB. --> plasma_hash("gframe"): TA= 4.125000E+01 NSTEP= 13559 Hash code: 105116238 ->PRGCHK: bdy curvature ratio at t= 4.1300E+01 seconds is: 1.0943E-01 % MHDEQ: TG1= 41.250000 ; TG2= 41.300000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8370E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0943E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.250000 TO TG2= 41.300000 @ NSTEP 13559 GFRAME TG2 MOMENTS CHECKSUM: 7.9258616269116D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.49787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.06585E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 6.06527E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.612E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.62664899999800 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8720E+00 8.4408E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 7.75429553791821 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15741621309620 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.69031059199382 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20449365530715 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.05324558316011 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.41546281285421 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.08200366392153 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.4535931679688 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.9129390954430 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -5.28353304191776 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.9619404263839 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.50308155319524 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.35377858105488 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.15300112447298 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.96904450454509 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.19957072091604 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.499663475852836 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.77509756267603 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.62732247411504 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.07566729050115 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16176453351006 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.45995419177234 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.26868648518058 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.41163670541859 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.62946493821842 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46754135854272 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.09800684222609 at nshe,nfasti = 44 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13419 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.43136189025285 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -29.7159168545434 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.09843559758382 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.97820989074786 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30551462146162 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.96989950907431 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -33.2439757675821 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -2146.99284908742 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -639.637136157678 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.48039140094509 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.89737650167640 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.50281422089897 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.445961055814977 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.02613611375755 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.65148190447400 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.13976062704097 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17498802020997 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.56734674287073 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.27190494449049 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.39327130705848 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.68068624775293 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50419041244607 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13622415036786 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -39.7522768335387 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.01843415856528 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.76893964972022 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.39953513357150 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.23278009355206 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.4097903423371 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -75.8295836693497 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.30674715993735 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.88803252996476 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.40880967858373 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.450068521513180 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 5.01977892658524 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.64126283484550 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.11989675976711 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16288407945811 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.54519975820655 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25773053184775 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.39184905846746 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67601763363131 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50367268808537 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13755270966983 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.96711427172340 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.23270068041763 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -28.6001242198913 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -149.579117326780 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.00061623327350 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.82587288276244 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.35511345358798 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.453089686291796 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.99008915848279 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.62363171477625 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.09632056046847 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14890402108976 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.52287962485185 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24912559609692 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.38994288993150 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.67180296805637 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.50173822956261 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13726114965156 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.29968851115349 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.21380462855257 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.4525393928742 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -176.190989443400 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.86125719204935 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.76593120863263 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.31059584071106 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.456347956211514 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.95477490353281 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60458526600462 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.07193674726990 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.13472928422178 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.50322438092608 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24417615437316 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.38773073769848 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66789098291184 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49958938854878 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13625995033689 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.92842116123262 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.19857868356226 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.8582083769854 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -176.806958829472 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.75794271832049 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.71391685897296 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.27616655450951 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.459750773268260 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.92118841859213 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.58672162700641 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.04824122100096 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.12108230998448 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.48576771234438 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24129234458014 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.38527234673117 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66419921807971 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49738073125525 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13486067758161 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.70628771114174 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18777382342257 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.4903247925873 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -166.901803321145 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.67367959071670 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.66833207928099 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.24826059841044 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.463147033950497 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.89019532530340 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.57026272570035 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.02555508787477 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10808578589972 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.47006585861729 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.23965197862297 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.38264782321775 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.66066923512170 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.49514371290020 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.13322320127395 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.612E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.05588164254910 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.11811259074760 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.87634601236790 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.83003476349991 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -26.4605124329534 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -95.5935268143145 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.60846330100951 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.14163013996646 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.52282403584210 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.01123031362961 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.381776040350914 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.96429627756083 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.61788349257578 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.10052138418008 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.15481386858311 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.49027411387622 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20455507641821 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.35932354980430 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.62367982110477 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46852357461023 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.12037474968988 at nshe,nfasti = 44 5 %fp_imp warning: RF renorm adjust = -225.212219698291 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.64788869071251 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.47634196760528 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.53216211175722 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.87379524114319 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.9139913414557 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -82.5273328396531 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.74794887089331 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.24031662702373 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.44679238142327 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.391471996611446 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.94166201462872 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60050296822971 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.07483962226923 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.13999421369170 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.48057478201464 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20580246433178 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.36022282422365 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.62086635744045 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46537673148364 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11731026244941 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.87672081732251 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.6134384556026 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -79.4663607624857 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.69312085853980 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.22413580407670 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.42796680868399 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.394359594319402 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.91587756561929 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.58545449895900 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.05269586038901 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.12719587292641 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.46720586982768 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20511786193466 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.35795203787742 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61803500994891 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46294582381153 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11497143670132 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.87309392140758 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.3817203025047 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -77.2795587213701 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.65310178075575 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.20650291024902 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.41343969666275 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.397165216092769 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.88983523297745 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.57130022639596 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.03186248638477 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11521167687731 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.45463172014259 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20493110031513 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.35566399702644 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61529408242210 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.46067672302202 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11277844745829 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.86747646616534 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.1641354601782 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -75.4297826510059 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.61546359939772 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.18833917073718 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.40128432709875 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.399743797336956 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.86548201240350 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.55820456152992 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.01216990192202 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10378086881145 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.44288858714040 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20498780062043 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.35339333057850 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61266496895663 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45856514206129 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.11068652005063 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.86113261035827 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.0258423527779 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -73.8505280723424 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.57889590248328 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.17006016712800 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.39034139643640 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.402168837098318 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.84291832603358 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.54607691674461 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.99351319539440 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.09293071839902 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.43189083879566 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20518673555304 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.35115446833648 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61015026882948 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45658279420536 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10867574036673 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.85473469948789 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -22.9052571099920 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -72.4153680088540 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.54329732487712 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.15076077123410 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.38027664235609 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.404496886925575 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.82193821683018 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.53478762792912 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.97580216024146 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.08262224698932 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.42155042522106 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.20547663316700 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.34896235206103 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.60774869332927 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.45471598354913 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.10673565928736 at nshe,nfasti = 44 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 14059 TA= 4.13000E+01 CPU TIME= 7.88013E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.55583444444454 %check_save_state: izleft hours = 72.3647222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1300000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.130000E+01 NSTEP= 14059 Hash code: 111405467 ->PRGCHK: bdy curvature ratio at t= 4.1350E+01 seconds is: 1.0930E-01 % MHDEQ: TG1= 41.300000 ; TG2= 41.350000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8990E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0930E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.300000 TO TG2= 41.350000 @ NSTEP 14059 GFRAME TG2 MOMENTS CHECKSUM: 7.9269554742109D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.70452E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.55916E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 6.56002E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.617E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.3287959999980 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8722E+00 8.4410E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.83966484329303 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02008877582245 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.82363375355159 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.42544378189541 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.88284444934363 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.32306642481937 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -70.3867403579886 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -13.5704126503737 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.5630641145935 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -130.322966832885 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -4.77315898660564 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -12.2104301827199 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -32.9674415969220 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -115.909741801729 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.84466184537293 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.49779603978450 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47942698524720 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.57370042765238 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15695865132169 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.77532720614389 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.14239572018626 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00662091740160 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01086379152321 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.43209503529168 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.64169179353213 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.37424620048773 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13413 %fp_imp warning: RF renorm adjust = 9.60972780989789 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.71831462238857 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42504208273861 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -101.947766159139 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.98063360045164 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.82656077143836 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.99165300332014 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.18810950262646 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.85622862475532 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.428571468532038 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.72677940734324 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.20885419276109 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.42761162846098 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.62512458453286 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.38648898038129 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01035106069946 at nshe,nfasti = 44 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09873741481936 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.75762823333963 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.69550557462864 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -54.7942225952149 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.00377529487854 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09067461144231 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.30125868631160 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.88559782206729 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.416730889406707 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.72632199287392 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.23660288486014 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.41884865064424 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61186304326442 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.38591569721240 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.01116291128256 at nshe,nfasti = 44 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.617E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.40817593720134 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.00903381874906 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.26254076895060 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.459229564590959 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.25868689526144 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.80178806403461 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.00445279807899 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.15696580365122 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.77789516436228 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.467759858740207 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.73874989941194 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.25487208356202 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.37699461588200 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.57099113263584 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35794053835667 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 4.83520632989492 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.99135052891329 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.30528880817232 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -398.378882645682 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.61375402711085 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.95052424061954 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.03407499309177 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.16356793356973 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.81335911545828 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.449806102428264 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.73751674008313 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.27525926491817 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.37174823952159 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.56422872916727 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35620597146609 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.94641401194399 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.29847235096191 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -624.507927478741 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.53570326572893 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.94033258898959 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.03686808095413 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.18227531943726 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.80519688563781 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.446265350113731 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.74109311865120 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.28789702812223 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36609667928497 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55868150558064 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35474928681702 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.82741558867697 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.29287723895686 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -390.869609704231 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.54126736445744 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.94296742292359 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.03546930894241 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.19292052588001 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.79988656185659 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.442803555400252 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.74085493175724 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.29819633827045 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36156537196564 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55414005793714 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35326325807825 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.617E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.55838677976901 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06024365370267 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.91813084328656 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -117.014654347296 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.62132591451846 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.50648647368675 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.26396047117389 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.38216952418989 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.86002561172752 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.436272439585763 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.77376138624372 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.31735621647475 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36611171708524 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55978760926765 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35609100635784 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.67259809970690 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03697336400388 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.93391843013587 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -103.808922303519 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.60826318798801 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.52654771340311 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.25930214052075 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.39538831284992 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.84479441119193 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.431922408874503 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.76498983691860 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.32969140063022 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36444945214885 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55607045703012 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.35371985947855 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 14559 TA= 4.13500E+01 CPU TIME= 8.42364E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.72672722222237 %check_save_state: izleft hours = 72.1938888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1350000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.135000E+01 NSTEP= 14559 Hash code: 62642554 ->PRGCHK: bdy curvature ratio at t= 4.1400E+01 seconds is: 1.0917E-01 % MHDEQ: TG1= 41.350000 ; TG2= 41.400000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0580E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0917E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.350000 TO TG2= 41.400000 @ NSTEP 14559 GFRAME TG2 MOMENTS CHECKSUM: 7.9280493215101D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.90772E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.05146E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 7.05225E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.622E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.1106720000025 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8724E+00 8.4411E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.6 cm.B= 4.1980E+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= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.22521474217109 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74726990707374 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.48791897388674 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56947241607630 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.36880464766198 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -37.9672938606360 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -54.7942796892903 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -195.048097701224 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -778.179322054636 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 22 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.80394243715552 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.38393549656576 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.05554295087150 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.77651464606079 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.91118185818249 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.92448424114718 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.49027590989194 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.83766053144006 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02735088271744 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.94749099427441 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.33694937603388 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47668413511315 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.22046722704384 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13410 %fp_imp warning: RF renorm adjust = 5.66633635999843 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.90302873257841 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.36849266283786 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.56154240168946 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.6300682694633 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.4582354263689 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.9786108254973 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.2324553170605 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -17.8408471405631 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -62.1695179804143 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.36307688651094 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.21630826288560 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08171613884491 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.74433522282580 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.64390905983101 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.50625305102336 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.38803801126664 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.32346971805090 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.88526337080284 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05428318657190 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.07564772229165 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.35990187684155 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.51328747763444 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.27724668671380 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.37696632910991 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.15738337681917 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.11160074369803 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.88436558384300 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.78804287097152 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.2617576132269 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.79367275023562 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.99056176582472 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.06369855087160 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.72957540791367 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.64631208690760 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.51579699098058 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.32902967023948 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.30057003202595 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.89670281913057 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05944890907830 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.08142506656437 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00539086619327 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.01706693733523 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.37778236710949 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53499681939739 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28257701919609 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.58977884245498 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.35056209067009 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09178501704648 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.55934736195461 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -46.7268541098573 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.5467003437306 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.2007225064118 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.8119393201393 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.04464529612851 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.92449875493517 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14940579510472 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.75742948648280 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.66509333440215 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.52664251933474 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.29557148547654 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.28564983053438 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.88906980452190 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05476112791301 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.07632752204632 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00648941809360 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.02659854402848 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.38951767604426 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54731142378679 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.28706065151651 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 7.84681392497357 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.72229844518654 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23807184344330 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.94269834969004 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.82891684978837 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.13335593430702 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93207496340777 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.18028245148817 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.76788563066513 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.67963886293727 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.53578326643941 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.27257138814083 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.27465897099823 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.87538973596633 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04688091161730 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.06991321740615 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00603518283810 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03238211530546 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.39825583896817 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.55603090183618 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29092281119739 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 8.17810106250822 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.95643684178480 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22126708924284 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.66407821080926 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -46.9218276266310 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.6091048512157 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.9959120632670 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.4542033667995 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.19334337317722 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93805757446286 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.20972761919862 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.77753624140857 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69410146447010 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.54451866615365 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.25555523091139 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.26609461231635 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.86012223309714 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03808014215560 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.06323331576541 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00516176176195 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03634006994211 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.40499869017293 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.56266235949066 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29400329635647 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 9.80911300627875 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.35441136608674 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36740459782918 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.08037065828400 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.65252542834089 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.22389128687159 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93866769574508 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23582683870194 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.78573900948307 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.497319105516030 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.70833256869856 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.55259240448658 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.24182127328017 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25889188752853 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.84469528543950 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02910991660868 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.05646260831894 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00411747506873 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.03914853826674 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41023900686965 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.56780096097229 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29632400366609 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 9.89701138541308 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.51239869019797 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.33940814399438 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.78061077924108 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -38.9304168012657 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.8533934466443 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.0188286029165 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.8414254476477 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.25243059100911 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93983845567915 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.26000644364583 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.79377411212318 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.494418561475691 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.72070769203497 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.55953654630040 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.23008587532231 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25253808170204 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.82963806784245 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02027786145493 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.04970617670525 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00299051999559 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04114825360219 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41431491984471 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.57176977360952 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29799016368073 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.86883335211072 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.48107417811790 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.21143580609062 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.60982936932968 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.26941784179040 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93798197047746 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.28105215375058 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.80070840709043 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.491880574782992 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.73117350146673 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.56531902488083 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.21961395856328 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.24671575268843 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.81512751147828 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.01169910816473 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.04304991476275 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00182805519960 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04255085051295 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41748236548326 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.57482126167629 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29911980072720 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.94692137895558 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.43634945445304 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.88036347458400 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -34.0304445125383 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.3397985385319 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -17.2854637700920 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -56.1741888088816 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.29133453249016 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93809544010526 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.29992741114521 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.80701601862889 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.489595693588513 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.73994305838141 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57012153725486 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.21004327255921 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.24128596690622 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.80124155562359 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00343708175788 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.03656261359311 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.00066105953421 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.04350127843589 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41993633235355 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.57715166201593 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29982051101867 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -137.750846523543 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.53856073268569 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.42209101873475 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.46801206587317 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32062517624169 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.58012779980175 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.30559028950061 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93582771450903 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.31651951382402 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.81244284791015 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.487466334643518 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.74722908880542 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57405398364154 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20110344556316 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.23613432165064 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.78798309687005 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.03029230678822 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04410336994830 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.42182530924982 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.57891202646599 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30018221825679 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.33213818482289 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.88977567853899 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -31.8545577566866 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.0008970387170 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.7502086138689 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -54.2490549258616 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.32719531873896 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93583066567217 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.33181853667786 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.81755438452657 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.485451566666040 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.75325081894768 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57728904060941 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.19269191750957 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.23123045031788 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.77539122728880 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.02426896057605 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04443341336722 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.42326242456314 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.58021837816947 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30027696738414 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.61393938806698 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.08162657464639 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -138.060910276106 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.48710704495490 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.39564604495359 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.43002651835766 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34566560228821 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.53258382131378 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.34173818726175 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93344954010258 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34539665510406 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.82176575171976 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.483500237048555 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.75810497263513 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57986288588420 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.18467984962432 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22651746561885 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.76342505708229 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.01850770299400 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04454858436625 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.42433451040583 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.58115990338051 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30016137171829 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.28566850862669 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.56126600535065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.31803461743808 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.44931475744255 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.35323734728016 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.78634131073349 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.49568979716080 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.33897084855249 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.91267020297394 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -30.3006473462102 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.7367922037300 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.3636563233781 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -52.7978300626111 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.36386534021325 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93331182905857 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.35812159901852 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.82567520586262 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.481603481991249 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.76203507003615 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.58194279743601 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.17704750453979 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22199862370629 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.75204317431637 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.01301504716520 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04449243368593 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.42510884192079 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.58180535890192 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29987943215451 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.27618378012683 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.65980190012234 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.91218009667691 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.62460080956324 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.51182400710514 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.42504237967554 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.33252550490933 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -47.1520591272558 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.59088467349784 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.47198332644115 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.47467390696074 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.38889234263931 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.49805160404317 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.37873902821085 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.93070886006676 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36947763545129 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.82900310654087 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.479736889031412 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.76509854286946 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.58353539607983 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.16971442375018 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.21763409508113 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.74119406019034 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.00778878723611 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.04429861259875 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.42563800632256 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.58220844226898 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29946525991519 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.622E-04 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.04985947482599 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.06089777805010 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.64957267342773 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94057264694467 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.27729333974222 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.41789558614587 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.53806378546797 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14418556734672 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.9434773089207 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.0109343084411 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.7654018865756 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -54.3804574055781 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.33316923346434 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.96292089946307 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.15954830989079 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.50779587158896 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.49048312465014 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.01139711901090 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.69138854873482 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.53942173247164 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.92315811658394 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.07957493201684 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.12340085550574 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08810435656459 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07291094320025 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49752902563052 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61858128978674 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33651867247382 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -26.8549787191966 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.23686906107354 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.87245334927141 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.80935388878731 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46329862169861 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.70186154788045 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.99224329912572 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.89276747249750 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.30786672709250 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.50078035105284 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51229090464793 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06709364356834 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.70198122356463 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.54364264796958 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.91336185628623 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.07357034970468 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.11805324424011 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08665371241192 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07426495601492 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49844830082399 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61845929274767 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33582237359365 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.55439769423360 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.20237216179809 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.4589158756818 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.5633446025381 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.1913976300310 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -52.3634119319893 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.04323250166087 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.91036662243593 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.37729488582408 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.53113993658243 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.50797326251138 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06087593459698 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.69293971324954 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.53806042622134 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.90295581282773 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.06710026917139 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.11247820181431 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08548348215286 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07368275657911 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49848774907974 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61838929551333 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33514308421516 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -31.0572137417626 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.29159017570501 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.89675194001969 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.83055130346344 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.52180820340456 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.57175140763515 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.05466246195489 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.91344716983681 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.41075043114339 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.54359184387616 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.50852635659512 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06053225656018 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.68275994998222 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.53222794203307 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.89222744195465 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.06056687286024 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.10725374646094 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08449250010677 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07296081288670 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49833038155099 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61816260395142 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33436809708444 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.56702765036701 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.23863672388974 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.1028237090163 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.3472421217423 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.8355726453057 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -51.1107059440152 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.07430693631066 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.91969966713583 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.43277997548256 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.55240946325880 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51152053615466 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06148020785290 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.67375778410135 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.52702321891677 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.88185593749345 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.05428266624991 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.10237868426198 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08363057015465 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07224644757903 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49807771662258 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61782962595283 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33353063666813 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -30.3024470982858 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.36280003898005 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.93718832642905 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85430192581374 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.55914132141678 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.50119221455503 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.08214718103588 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92008586856877 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.44814811767203 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.55843506739468 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51436692770714 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06245287164258 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.66573178165016 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.52231113701967 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.87199288242643 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04830595880107 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.09780824682952 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08286990962211 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07152089893034 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49775688521011 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61741664151002 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33265474656228 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.57848115813453 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26007091501266 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.8413919253650 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.1909036831392 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.5816500083613 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -50.1830473464914 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.09701415704124 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92382054687477 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.45953757242592 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.56298735394044 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51639212277265 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06298746815322 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.65836091870893 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.51793300157218 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.86264192375856 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04263070909353 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.09351201649467 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08219318899447 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07078483936318 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49737199468178 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61693804774276 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33175369110028 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -28.9554826680561 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.40924490100989 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.96417349406929 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86695551200857 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.58023333898426 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.44827222173703 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.10105664571788 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92233027460033 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.46733819139407 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.56593876845632 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51748039061165 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06299232330590 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.65139603081598 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.51376295332681 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.85373381986748 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03721447895204 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.08946526654024 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08158981296302 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.07003700368270 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49692847085197 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61640018526315 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.33083553944626 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.58424086631259 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27112311366893 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.6418817497297 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.0631553477644 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.3784569849503 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -49.4423615188531 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.11293506664704 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92464361304325 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.47309772822163 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.56817697466528 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51781792727406 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06258269443245 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.64475972089645 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.50976812181038 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.84522587958500 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03203342232015 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.08564794019556 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08105276105048 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06927737043695 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49643134282979 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61581150475762 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.32990435951309 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -27.8152306564608 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.43276214494303 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.97787709856829 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86975668389089 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.59004956037428 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.40126036512352 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.11439143200288 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92197144087502 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.47651737755550 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.56930761970027 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51743938900176 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06176343291184 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.63834653011908 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.50589155315232 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.83705585557100 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02705106806389 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.08204037522490 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08057667757747 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06850668811621 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49588623582769 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61517895454179 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.32896328813691 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.58542420194894 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27483255245609 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.4898826723068 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.9545611525426 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.2073267080143 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -48.8270053227170 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.12411476982387 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92333110659758 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.47872673688109 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.57006829616936 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51648327748300 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.06061714124789 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.63213744502874 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.50212840181173 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.82919581801930 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.02225241739876 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.07862723839256 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.08015746710609 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06772233883141 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49529949915455 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61450841774353 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.32801487143127 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -26.9203109427205 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.43962912669940 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.98175806434858 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86546946260531 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.59183427137549 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 6.35597247671165 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.12363420674575 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.91983216131471 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.47917505870008 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.56997243938120 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51489806914836 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.05910594398455 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.62605952062728 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.49843739253830 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.82159923115983 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.01761004911976 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 3.07539347867287 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.07979160713437 at nshe,nfasti = 28 5 %fp_imp warning: RF renorm adjust = 2.06693442479313 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49467436879004 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.61380544597953 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.32706136770051 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 15059 TA= 4.14000E+01 CPU TIME= 8.28940E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.98586472222226 %check_save_state: izleft hours = 71.9347222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1400000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.140000E+01 NSTEP= 15059 Hash code: 20507230 ->PRGCHK: bdy curvature ratio at t= 4.1450E+01 seconds is: 1.0904E-01 % MHDEQ: TG1= 41.400000 ; TG2= 41.450000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0904E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.400000 TO TG2= 41.450000 @ NSTEP 15059 GFRAME TG2 MOMENTS CHECKSUM: 7.9291431688094D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.08081E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.48548E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 7.48211E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.626E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.243E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0178730000007 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8727E+00 8.4412E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.61695833797663 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 2.56719665257682 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.89356931363238 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.02599669713210 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.44580455016617 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.34513284804336 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.53793468627422 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.18361231420962 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.00352684399243 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.30401744296049 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79694531431800 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.25178270538991 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.439680946106189 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63805512923976 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 2.58726056256517 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 2.42689195524747 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.69396639682199 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11779418726265 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.69802893063040 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 2.67480363267453 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.02958075530130 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 2.82287814284760 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.39956546955307 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.6748978077376 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.44213230096192 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.0340111673276 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -28.4502573673324 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -67.7614246574902 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -163.973074456695 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -405.771765194935 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1032.63653357839 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2721.01330159610 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7497.62741502032 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21946.1523330657 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -70117.8322426541 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -242562.895936300 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1160336.87055907 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7.03308020614281 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.7679756481476 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -43.0824291449010 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -126.362571221440 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -370.229933701545 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -1491.71248451006 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.9072573685550 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -64.7093886807406 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -448.771482916749 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -188.454535443262 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.59458099582002 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.66685026313128 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.37859776451283 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.40820653892519 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.22177732831177 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.484845240415147 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41649996473135 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25546058544327 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.75952597715729 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63852243086113 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.68271315277033 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.17169952123113 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.48529769787989 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48902454637464 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.10135913823051 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13408 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.88590087215845 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -41.2610916409499 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.56631543669899 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.04252460544846 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.21420445638434 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.03052134495427 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01967949978379 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -23.4933538440016 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -37.2275139380932 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -156.161925108502 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1008.73253414430 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.11426757288071 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.70242201878338 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.64861105472658 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.23135446368644 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.50630750806933 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.00460070901071 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.237967551349065 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.02640128533855 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.03899045713704 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.70513690311105 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.23355262609799 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52265975602935 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54271641731853 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.30662374289163 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -108.808987103591 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.58524550753639 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.42677050055030 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.40172246959924 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17402480374598 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.42498484430963 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.21350663447197 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.7135193774205 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -40.0408235324853 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -171.174058537946 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1224.51869827575 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.95752725396969 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.39352491889270 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.13993424986122 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.23964222140091 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.51515393759286 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.09171421252259 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.264553228244123 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.08579863417009 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.06458468001328 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.63612411685244 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.16341673403779 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.48460609723499 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54283039409791 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29606973799963 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09752280733582 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17002622690535 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.33919572663359 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.29855903936011 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.9680636123203 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -39.1150988822355 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -165.647610145274 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1168.76227973932 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.10760473263996 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.49510627574089 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.25865203902747 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.42533155006019 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.56839050322209 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12948847555616 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.280141123573924 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.13950842261149 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.09072225046187 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.64918698786113 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.15123011284987 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47518588829056 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.54418016837932 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.29553454964977 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.626E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.243E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.05615918562406 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.44095784396037 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.0703047614714 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -36.0783480785638 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -145.379091927129 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -910.617742058050 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.20838221615958 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.00180206576315 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.17271809564088 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.10178123615810 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.57498798473261 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10449120416886 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.277906588080702 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.16603201253182 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10572813260380 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.61835677413228 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.10823163601797 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.37410673816805 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.41871884800978 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.24198864758584 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.01749421091165 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46308911576064 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.2360288447169 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -34.2370906175451 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -134.894071843161 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -800.301076659544 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.19556138015714 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.98742955152513 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18226780580757 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.03034726477206 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.57223401437919 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11281957618589 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.280793301420732 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.18306808179451 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11302316142848 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.63505916402435 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.10600322595228 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.37165504405818 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.42003136252407 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23821228091775 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.97007311006377 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46538819337296 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.7057066484898 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -33.0776502858723 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -128.558576589720 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -740.197684179543 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.18004245713718 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.97123688747257 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18397222472852 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.00722782835712 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.56942955886533 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11953265515956 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 0.282753707943667 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 4.18921063865439 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11521625691516 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.64808836931073 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.10232926044709 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36949229895871 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.42114143042653 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.23584229662336 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 15559 TA= 4.14500E+01 CPU TIME= 8.28237E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.12989805555563 %check_save_state: izleft hours = 71.7905555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1450000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.145000E+01 NSTEP= 15559 Hash code: 31584839 ->PRGCHK: bdy curvature ratio at t= 4.1500E+01 seconds is: 1.0892E-01 % MHDEQ: TG1= 41.450000 ; TG2= 41.500000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1970E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0892E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.450000 TO TG2= 41.500000 @ NSTEP 15559 GFRAME TG2 MOMENTS CHECKSUM: 7.9302370161086D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.25576E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.89461E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 7.89454E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.631E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.365E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0389620000024 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8729E+00 8.4413E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = -84.6401945644318 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.39571637925924 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.55387019648802 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.80379000627356 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.68814034554128 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.80427343829130 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.93437851151164 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.05987955121621 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -5.91819960098718 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -15.0709745237036 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -49.5004191761745 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.2028498153527 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -61.0060939167797 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -171.270447021508 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -659.146390368321 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.10067117976161 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 9.69799540548785 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.41427760247404 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.97960367404794 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.62847535980507 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 6.26399509670004 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12157253513517 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.48212777828215 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.34045454414647 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.83373525301023 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.39492877730623 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.11849913608373 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.40300856553306 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.49119225314008 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.14775529713138 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13406 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00615443278635 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.11727625525976 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.66776320909799 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.25291843982052 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.1765386074554 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.42927257089139 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.1176768986100 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -52.6073265327764 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.9645790068643 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -50.7188358701266 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -145.455590919368 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -552.958788731853 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.67736461339627 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.66101281471579 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.24943428338945 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.49415915699801 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59406331816111 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.490351623908088 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.02965815479470 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.67603594043341 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.33324287016499 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.28563269725666 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.80971374373580 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.56880837555785 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.19021161684629 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41178615162438 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43435243101255 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13901031981821 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.16646465349421 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.96640237865144 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.20415945803677 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -28.1204688611230 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.57657055645949 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.4741283151551 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -53.7447398471586 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.7515126636490 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -46.8927292497546 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -134.789631915975 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -507.836268563042 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.47617714658910 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.67308489348922 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.15958952133796 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.468836857422226 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.47925272589771 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55693170803492 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.463322038459998 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.90672405055331 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.62426393983142 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.27533062585330 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25468860747843 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.76218916768100 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.56365286030551 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.21559318331188 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.43030854216937 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43178256044810 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13654909595601 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -977.706045060119 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.83976786339735 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.33499534086143 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.07503136770587 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.15971611731901 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.13803104716842 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -59.8282505205140 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.66303891641905 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.6828103435329 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -54.4087675318590 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.2458100455388 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -45.3406856943420 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -130.545393707831 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -490.089004696797 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.33530870553374 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.74402295466623 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.10440691133027 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.449260628294259 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.47137184127428 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.51961492709089 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.445960464610392 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.84788223547199 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.59399667277916 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.22706398817689 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22853165258613 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.72263553983962 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.55588327513259 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.22890408029123 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.44282106067438 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43412162385046 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13438975136346 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77481715626493 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.12723902200306 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.00057769161812 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -158.394854960958 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.73872457858535 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.8680657960365 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -55.0076222012092 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.0015071476114 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -44.6644001480754 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -128.811374258394 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -482.952546614628 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.23158435942127 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.81545903345364 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06528593792697 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.436194129989950 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.47355084147927 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.48972126548170 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.433676968752856 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.81062670414856 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57419303821358 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.18879778424995 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.20746930871072 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.69008816939122 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.54921730054177 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.23790798287383 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.45212207764214 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43723016115649 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13274981591059 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -244.180224238094 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.65221176210600 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.27652932990921 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.96886462846095 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.23692679768886 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.97561658236302 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -2500.54539585926 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.78196923899064 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.9676982087289 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -55.3201201184603 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.8615141014441 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -44.3076966746549 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -127.939043035611 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -479.347251577268 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.15058472057209 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.87515162588976 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.03461514579166 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.426348306443376 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.48097407747077 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.46598985093928 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.424264334846929 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.78277747758521 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.55948174966335 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.15761040028850 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19006386967569 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.66256356391964 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.54315572690020 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24442102489199 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.45906170585582 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43988467307294 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13141817208432 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74403193151319 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.16910644811084 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.88796903407917 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.443407158158796 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.7631974692411 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -44.0661689245580 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -127.358293782421 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -476.921631869381 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.08570194419257 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.92119536877710 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00940520901518 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.418337671664605 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.48930106982914 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.44644080917156 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.416627011358594 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.76027132956963 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.54757538836250 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13132977777765 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17524408396212 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63880447457442 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.53750121342425 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.24913720910717 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.46406188033795 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44181674389850 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.13020416927908 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75115404026602 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.50335769445408 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.45185859793062 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.66230797809392 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.56757171708620 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.9394147875803 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -72.9130586417389 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.1345680688124 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -41.7184892619026 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -120.331350529282 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -447.142617207587 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.02411580638072 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.00300182723927 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.415767996978422 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.50332517268280 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.43074235283820 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.410171992962485 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.74299609593787 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.53840001494817 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.10932527603113 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16272467247031 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.61821806429938 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.53221819239845 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25256993831125 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.46768753991591 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44309283831338 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12901448372720 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -204.582276040834 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.26941986598569 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.09334049086628 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.78928977864322 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.88676572752668 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.65356347417482 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.4506050377242 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7.52444540799350 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.8871778847259 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.8418223404460 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.2440606437478 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -42.1514563704452 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -121.614724343982 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -452.328434729902 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.97137861525492 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.03825501931033 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.419438744833273 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.51276488548604 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.41543322791016 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.404528335402370 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.72788202214608 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.53025325187021 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08996534924350 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15165618024509 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.59999659901150 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.52728586346647 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25502429373852 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47022867768757 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44381258882173 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12780654656567 at nshe,nfasti = 43 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.64479266578899 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.49518620051068 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.70313849693628 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -31.0974391056834 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7.22817430313991 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.0969266617717 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.1105256369282 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.3244139124729 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -42.5296273579848 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -122.827832899157 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -457.474602988446 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.92807037996281 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.04697456269909 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.422598163563230 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.51584954183050 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.40107990674985 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.399524433656662 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.71345352194880 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.52256521793953 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.07248848022125 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14164241524676 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.58361245679279 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.52268321781338 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25674086108167 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47195037266408 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44408555440768 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12656590257782 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.59932444394404 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -612.258959111809 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.43207889999423 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.06328954437490 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.44814185367005 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -98.6766811055149 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.46474723872159 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.20736236248267 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85022675209070 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.47685246686673 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.76604559005222 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -94.9246596496227 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7.10884389578513 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -17.7827577614323 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.0337896535639 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.3309482966601 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -42.6089421714983 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -123.110849468694 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -458.670813630359 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.89192941715728 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.05912854620219 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.425206469898045 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.51698680424911 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.38805376102203 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.395050130355679 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69983132497298 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.51535259246171 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05658624090623 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13250094887401 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.56871985490888 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.51838800747849 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25789442347207 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47304134784315 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44400578453981 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12529177427872 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 5.93519213871964 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08784400187701 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.38961251537550 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.47993480804855 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.15215849875121 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.462404910700141 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.68216288127058 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.29956400371858 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.74016882035298 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.498748373673329 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.2955804828393 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -42.5062837711470 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -122.811989795955 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -457.360416367380 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.86039290375480 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.07117898119540 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.427463813746338 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.51759989980177 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.37628534355315 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.391011239144250 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.68725122525392 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.50869890090605 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.04206328569950 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12412346667298 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.55508456187875 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.51438224242536 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25861579693537 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47364943001362 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44365011738304 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12398842566639 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 7.09281351767897 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.55475976900244 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26493480382942 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.32938610777698 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.48212223120274 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.06772462042953 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63705163127047 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.83829483007879 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.14421906160987 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.68652410482589 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.484935943155043 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71045754814028 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.54070192582676 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.36952866960047 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.75613475856471 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.68377467825170 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -22.2350948536602 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -73.9338223623220 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -10.7421105494608 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -40.3435674805221 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -116.225406714941 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -429.627695215058 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.82695227484228 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.11870625861875 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.428411415724718 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.52367206451685 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.36731211623300 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.387283225243973 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.67724928981884 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.50336957316996 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02940165322300 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11676528315823 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.54274452068775 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.51065938397014 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25900378213564 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47388546557642 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44308008331305 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12266183715894 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 7.18847132126126 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.72340636707235 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.21262794970428 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.62697656057187 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.59067239398796 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.22159180485343 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.46275467579871 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.08805029590567 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.88631807747229 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.71615014553718 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -51.0550739738352 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.34848651836691 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.07318710513444 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.42859167896321 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -84.7116341237544 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.26516406974271 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.11194182939590 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.76002214710772 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.93744139566792 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.56989034809064 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.8970970058521 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7.62679304218425 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.1408645009680 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.6984754046435 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -10.8473169653553 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -40.7050984199781 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -117.212497996250 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -433.480226385689 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.79790452905556 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.13543557245487 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.430763713666438 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.52726643687674 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.35744635634889 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.383782897478457 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.66799057746104 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.49832527309803 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01771811104580 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10996096190166 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.53136038882020 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.50719445186831 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.25913265275451 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47383145726058 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44234424295941 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12131819485838 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.631E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.365E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.48963708257703 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.26636727978428 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.33767218083259 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.86081903592526 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.99466212489547 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.35609293411099 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -113.225715868972 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.0550704799027 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.67228501760399 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.73801492240670 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.00997244786725 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.04324840825825 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.98351366262703 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06978727667252 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -6.39504884143150 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.09314508916441 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -22.4810762093299 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -72.7954132692217 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.8770969285621 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -45.6626916860936 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -128.439906557151 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -471.940103447881 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 8.28271507063761 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.04157279008244 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.38949569574659 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.44273026705417 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.34099572185790 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.89799515859494 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.32609599038196 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.29910107378922 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.66855739016893 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.56238693814010 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.26432898084185 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.54629914072728 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53716940412497 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16208851176865 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -64.7616298714580 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.78118123817747 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.40839483730503 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.76252809406542 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20533187882121 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.91690458879948 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14712518888046 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -7.90512958428532 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.77696972977824 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.6457145826256 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -69.9407037255544 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.0525163028444 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -46.2354430703621 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -129.955121398283 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -477.740140276253 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.52736158397294 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.07625807022352 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.26063778190473 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.31488077953436 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.32806524687859 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.85867464162186 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.30215262693434 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.28548723870219 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.65873324827361 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.56107473811692 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.26517556009160 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.54518772675623 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.53538636603992 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.16062969602790 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 16059 TA= 4.15000E+01 CPU TIME= 8.37347E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.32351472222234 %check_save_state: izleft hours = 71.5972222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1500000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.481E+03 MB. --> plasma_hash("gframe"): TA= 4.150000E+01 NSTEP= 16059 Hash code: 11388543 ->PRGCHK: bdy curvature ratio at t= 4.1550E+01 seconds is: 1.0879E-01 % MHDEQ: TG1= 41.500000 ; TG2= 41.550000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0879E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.500000 TO TG2= 41.550000 @ NSTEP 16059 GFRAME TG2 MOMENTS CHECKSUM: 7.9313308634079D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.38554E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 8.22423E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 8.22100E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.636E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.481E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0734530000009 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8731E+00 8.4414E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.6 cm.B= 4.1980E+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= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.36769730068959 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.15540694722133 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.88407458585624 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.20528474798463 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.54956593167760 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.16201401339803 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.4908797638348 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.7258137199354 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -246.111844955490 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -295.362424619967 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.88104889281458 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30849367853986 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.60953292694731 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.10424628691503 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.27456182846941 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.03764289654043 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68645489917877 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.09708500944153 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17701314472133 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.56692772847041 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.36061984840802 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.31871195463220 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49580518571229 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.32420767253289 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.06969756070896 at nshe,nfasti = 43 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13400 %fp_imp warning: RF renorm adjust = 6.73446906390224 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.84361114439111 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.39491762867056 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.29348676996558 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.69464532732051 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.56909058440292 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.13579151488061 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.3861373666788 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.3323562897078 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -29.7306052357916 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -65.5958984916438 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.01096364288394 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.90646006063494 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.65423237423332 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.49818889778584 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.09159749260268 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.03174838619269 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.72850616721852 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.10393581264073 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18822530998934 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.61807269898362 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.45563674703645 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.34708099838196 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.54887441519333 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43691334528396 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.09809409046150 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.22166491619682 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.74909158561773 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34819272427437 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.76881722761578 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.75588388234854 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.55870663522110 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.06223695951796 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.1892360130532 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -65.6816783878552 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -21.8376806758618 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -48.6151798793151 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.20148148221517 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.07381377567702 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.76928898603275 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.52936407440590 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.12914394842428 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.02178197009401 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.72764758108870 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11656886988215 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19565420009350 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63086681375245 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47391723315685 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36328264457589 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.56737088330216 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.45249646640259 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.10799661885214 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.27669813655574 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.75219291299899 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.38459667635218 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.84348078173253 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.54129792025792 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.98885007412235 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.0007285441813 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -65.0701212316791 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1011.27804858943 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -844.603396260948 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.25865543508705 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17127080972610 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.83484772903483 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.56608905579179 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.15705616523154 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.00772680058463 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.72172736974697 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11888613162729 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19716182547498 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63312740732619 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48005277156909 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.37296625873662 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.57964187337125 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.46044078264538 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11282851125975 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.25931617654973 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.78637460049940 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.44299778568537 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.94153262011429 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.52460991530063 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.92631157037749 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.8424641267691 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.5603014271428 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -166.941651797805 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -243.740587622725 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.27961178950451 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.23550887541466 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.88134703572030 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.59918637503403 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.18045058130958 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.99658287734398 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.71656767403040 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11675810111466 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19612160487736 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.63136960731350 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48251488609668 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.37974315926957 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.58878661723432 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.46597956121998 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11588634178198 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.28062220963128 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.83025599063825 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.50333691080891 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.03965107326481 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.50855222011529 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.87147209200570 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.7052798216743 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.1208233361232 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -121.809193240127 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -185.170786785410 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.31259657092924 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.29441374793377 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.92256554923359 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.63026497961813 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.20145456718994 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.98873945673301 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.71281781278037 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11290859554689 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19404804371819 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.62769835316288 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48343628618385 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.38483826578347 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.59592188282784 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47026741986656 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11809118555772 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.31193345830084 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.87632343314557 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.56143781555676 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.13441046667585 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.49328771528767 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.82239307017271 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.5836682282812 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.7330321895537 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -105.804590678093 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -162.180789262144 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.34887465698292 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34768675636183 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.95892822771086 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.65874862607079 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.22025051354998 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.98319800091881 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.71010493290937 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.10840290521444 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19154150744108 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.62300671234538 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48356828401105 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.38877701766016 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.60160670957940 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47374745969340 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.11976853020698 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.34908770568942 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.92193659539291 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.61634380583378 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.22491425841532 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.47872255034722 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.77777828977055 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.4739738530718 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.3845820120469 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -97.0004178952336 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -148.798532942515 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.38497793327705 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.39561927880625 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.99126072013486 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.68440434759361 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.23700894815697 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.97910445064956 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70805171635784 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.10365931785216 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18884797048561 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.61776539317434 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48324915558097 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39186498092946 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.60620018100384 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47661144448374 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12107543058718 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.39480814534427 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.96764438262907 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.66703098374944 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.30980093719839 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.46490139381711 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.73671124338973 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.3736220209807 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.0667923263784 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -91.0014221141905 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -139.369634219160 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.41953126097827 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.43889974463216 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.02020269512863 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.70739056758573 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.25191260054644 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.97587095469474 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70638376395815 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.09884795197810 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18607511532127 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.61225111849690 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48265177340316 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39431167111984 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.60994989940323 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.47898538220993 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12210092367863 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.44658397114279 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.02301198898975 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71398366601331 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.38818988570014 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.45171664377672 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.69856435878071 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.2808555797316 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.7737422676342 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -86.3969315839655 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -132.003766259571 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.45222262793185 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.47806179129717 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.04623750834816 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.72792617995605 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.26517984696956 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.97314707113905 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70493635579230 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.09404624451386 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18327689353961 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.60663396502450 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48187985918453 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39626839599345 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.61303683240487 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48096174111790 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12290452694549 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.50377573127616 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.07420752812851 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75694254282942 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.46096995583821 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.43913783420074 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.66286108491577 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.1943648300410 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.5010537485995 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -82.6160722629751 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -125.907449532810 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.48264236523053 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.51362152013101 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.06975281253141 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.74626472197894 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.27700566124414 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.97071322084789 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70360569079842 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08928872796750 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18048076650616 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.60100731846949 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48099350861682 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39784604879517 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.61559677539894 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48261191619705 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12352984368037 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.56001691730953 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.12087343684352 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79673198967445 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.52927337214856 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.42716956442953 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.62926947348061 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.1132412528504 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.2456939643595 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.3834979296468 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -120.682644120200 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.51099643899000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.54590386273269 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09107523348847 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.76265942972250 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.28756150543149 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.96844116948778 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70233224233340 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08460213001073 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17770811318691 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.59545022728826 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.48003879250497 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.39912651838383 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.61773321405073 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48399242562215 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12401033523791 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.61540580266612 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.16248463282986 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.83324995890075 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.59325260117739 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.41572442707878 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.59754468968787 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.0368132405272 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.0054216883714 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -76.5458376567912 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -513578.266526127 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.53766976242222 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.57538397091067 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.11057040087517 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.77734157211394 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.29700530463549 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.96625426170064 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70108119221953 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08000255297604 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17497273796245 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.59000720259300 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47904628566254 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40017082629801 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.61952597187672 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48514855392260 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12437222131757 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.66833429901469 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.20019240089478 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.86615833038629 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.65304232246721 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.40487228322276 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.56776248626695 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.9651189925551 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.7801186652109 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -74.7463571921186 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -44321.5950692108 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.55613535474744 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.59974474037771 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.12735598637968 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.79007593746220 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.30530378478389 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.96405146505459 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69981183444177 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.07549189779110 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17228133624706 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.58470238531832 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47803566637627 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40102489481694 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62103708399049 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48611678633030 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12463616663200 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.72004443663085 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.23465875616646 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.89627212007999 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.70806418599966 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.39452000524042 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.53958302409334 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.8973625713383 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.5673150447399 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -72.8572737334034 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -8182.68375273129 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.57912322640709 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.62388128138532 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.14362746368587 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.80175502572236 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.31284691949549 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.96188663555339 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69854773656247 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.07109063423617 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16964686113386 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.57955072480068 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47702122293828 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40172369254443 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62231519912509 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48692662822705 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12481858008812 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.76940740695726 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.26625199373914 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.92393502665857 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.75909696212759 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.38459544492887 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.51275301087881 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.8329271986957 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.3650727200904 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -70.9877201470428 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -4090.84855812560 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.60211798586620 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.64659053007973 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.15880871546038 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.81239823106503 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.31969548759182 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.95975662573139 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69728814130788 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06680596346663 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16707433412489 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.57455973733932 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47601338404818 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40229417606031 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62339874062345 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48760205535267 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12493256307864 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.81726210116424 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.29543464338842 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.94931146125004 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.80610904574662 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.37503675273563 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.48707435553520 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.7713348067796 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.1718895154382 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -69.1441990886550 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -2648.22031316399 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.62399175556361 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.66770396947462 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.17288150948593 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.82203849859040 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.32588462402379 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.95764475549155 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69602687228147 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06263709650918 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16456468452689 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.56973204630238 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47501996735290 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40275739283080 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62431832230740 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48816263753831 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12498863172688 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.86234324432003 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.32202635189117 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.97256300402476 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.84940684322233 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.36581001047644 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.46242922921580 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.7122961184744 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.9868470231163 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -67.3626202057904 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1938.85433404326 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.64452754599199 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.68723670534415 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.18588660612776 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.83075046764883 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.33147126497425 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.95553808548159 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69475949652696 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05858121477886 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16211730716118 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.56506654759655 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47404674616859 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40312999089330 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62509856425690 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48862442412042 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12499527384541 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.90382602526921 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.34617517621625 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.99347207531264 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.88914928452203 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.35690218275956 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.43875513030573 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.6556479563929 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.8094125983516 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -65.6664686162280 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1525.64316502075 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.66365757538686 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.70524762626276 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.19786282532197 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.83861450342240 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.33651105709392 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.95343141228488 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69348474078316 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05463361456684 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15973039296127 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.56055953724357 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47309790416620 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40342528983742 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62575940736246 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48900065256376 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12495938246288 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.94285874568641 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.36819342212413 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.01236555420229 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.92567698217246 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.34830741380746 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.41600117677479 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.6012528658618 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.6391319488158 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.0645564727896 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1258.22375883664 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.68149886891418 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.72187034788111 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.20891728390693 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.84570011476583 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.34105044703462 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.95132038630378 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69220164141900 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05078904607894 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15740163136021 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.55620566074828 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47217642296842 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40365406531479 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62631714570125 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48930230642281 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12488659407181 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 6.97981316592764 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.38831964117638 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.02932838142072 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.95892045543923 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.34002392308341 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.39412208735340 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.5489900257527 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.4756077443102 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.5592831641479 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -1072.44166237353 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.69798709164332 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.73715216334219 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.21903324178036 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.85207246574058 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.34512894055576 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.94920429813097 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.69091080430256 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.04704223655245 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15512854375180 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.55199862168606 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47128431580022 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40382512261949 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62678520791891 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48953856047336 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12478155244228 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.76722295776185 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.26161695052082 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.98733357219686 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.01587118910821 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.40695941869742 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -1292.77818700412 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 14.9979008422504 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.11407855018498 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11410358523681 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.98936978673135 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.33203363092381 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.37307525987722 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.4987490810320 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.3184808241288 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.1460084927439 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -936.344117455626 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.71331115342196 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.75132695513259 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.22838219370721 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.85779205340381 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.34879025611724 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.94708226464940 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68961280733537 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.04338805887152 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15290863066383 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.54793171907115 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.47042289650858 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40394573296701 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62717476031876 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48971713299201 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12464811495533 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.86280997357505 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.05104531353968 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.39261833511022 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.86386687938869 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.36160436329932 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.23437327863764 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.51534354729961 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.88657910953105 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.32686626340223 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.36111846371743 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.4711417410798 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.2333544396073 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.8378861472395 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -834.151434697348 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.72758626617751 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.76443476754906 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.23703213008995 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.86292500549547 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.35207684844765 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.94495516433992 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68830890091683 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.03982160521859 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15073934819495 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.54399795712571 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46959294902329 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40402195432352 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62749516150784 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48984455996172 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12448951386867 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.54882335193002 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.50828683141963 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.62170756604088 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.52327391722991 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.15695806349635 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.80391002709685 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.83809349031059 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.33986906591760 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.86821886473886 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.92220342999726 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.32143908075354 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.34584322813915 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.4336937907492 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.1150681651598 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.6160568093168 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -754.096900982683 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.74075529184237 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.77646996483571 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.24497444924181 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.86751972986342 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.35501824071768 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.94282380352743 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68700000821338 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.03633790803869 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14861804332908 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.54019039441173 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46879483024689 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40405887412104 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62775431555166 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48992641743539 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12430848243897 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.93135358684686 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.70721812561228 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.20948468757751 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.86881061888314 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.56030430329903 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.68885769329330 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.00135115715722 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.59551651448975 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.92018019942263 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.37709628368320 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.95265398837350 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.95540500963153 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.31502633320158 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.32878265185991 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.3927447569923 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.9867863753931 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -57.4747575371305 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -689.757854431964 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.75284958156793 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.78754647596103 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.25226845511649 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.87161685502070 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.35763649002786 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.94068688549128 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68568584831078 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.03293188952831 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14654196567384 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.53650221864332 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46802857922537 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40406079796331 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62795894901454 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48996749692481 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12410735308388 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 2.97156049659666 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75870530821607 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.02578478442153 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.09900257189354 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.40049292474349 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.79752241904952 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 7.01369285055738 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.41444736510464 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.00220168918049 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.98979686706799 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.30826805139320 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.31096192303068 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.3501715038836 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.8536888314726 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -56.3993772682129 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -636.599493039964 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.76401194634155 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.79775535546878 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.25899156652742 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.87526325565734 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.35996866010839 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.93854570957325 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68436761864470 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02959884455294 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14450855941158 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.53292684740048 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46729399437267 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40403139621597 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62811482786263 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48997194494724 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12388813421269 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.00801056582704 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.89273684362310 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.63198194335100 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.36326087119687 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.22482783157115 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 7.81997283658496 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.09182093614278 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.44514864322367 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -3195.63107968057 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 15.0097725069732 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.12766477083257 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10194626516907 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.02036115956020 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.30143082563540 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.29305823420022 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.3075097618594 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.7204748713377 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -55.3817501570588 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -591.834724961100 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -32299.9745097667 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.77427302668674 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.80711969459640 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.26515942945657 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.87848927364020 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.36203349841479 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.93640075739315 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68304593710170 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02633412834304 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14251526435608 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.52945796324653 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46659067854129 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40397381922233 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62822692854069 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48994337431593 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12365257080375 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.03975786415028 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.87746801846763 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.55749212956683 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.75395584997989 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.31220443120319 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.38652078708390 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.76335003569126 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.87754778042163 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.46170074937280 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.27778113650246 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.51818932129174 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.91715778196070 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.29737196080062 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.28407328605522 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.2869107319462 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.6572098518312 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -67.6934110976597 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -3526.30782677202 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.77536701031309 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.80845453125102 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.26823160001158 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.88009123898990 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.36339456984969 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.93410070054885 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68166779691143 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02311672556095 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14055660838629 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.52608917821343 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46591808790820 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40389078831410 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62829959530327 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48988495300070 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12340219177591 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.06103111861777 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.97730198612384 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.70206928794819 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.25554670924867 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.35768435420246 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.64176500619258 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.67871401776350 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -329.999995525790 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 14.0024168082225 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.95964166119621 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.99568188471737 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.96777058550056 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.29223038579337 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.26983599400323 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.2520554501913 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.5471040923879 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -56.2312790045947 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -676.112136771130 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.79082166131261 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.82284779057873 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.27623474194310 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.88350961854417 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.36539129051622 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.93205474959347 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.68039121507152 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01999916518604 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13865055329650 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.52281768938028 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46527545535881 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40378466859590 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62833662554021 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48979947575938 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12313834733136 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.08646931583890 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.24507918350677 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.83636982369519 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.51962133937270 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.50597596628965 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.66396057041908 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.60484782540796 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.57862904479815 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.88534215715538 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.28686189433727 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.25797733714049 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.2250332543551 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.4641292758133 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -54.1168720647836 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -556.435630118936 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -9882.53441124362 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.80222604009300 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.83174523848793 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.28168756623242 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.88605039442814 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.36695570890261 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.92998936562853 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.67910507781612 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01694191712008 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13677889097080 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.51963824893818 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46466230118545 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40365752928457 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62834129290567 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48968942439210 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12286223916437 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = 3.10761283492064 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.52243372968340 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.95788584538810 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.97315749971843 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.67462145251498 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.85669992683259 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.80216979269588 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -81.4620092204291 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 14.0709758609485 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.98332571373210 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.03646621622277 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.94122888687457 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.28024476486729 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.24040481793457 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -19.1826172744550 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.3307564277140 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -65.1648354132221 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -2167.13877152347 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.80121578018392 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.83144124756528 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.28357152626866 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.88683030103483 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.36776597301240 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.92774113337732 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.67774944471779 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01391755977482 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13493319021039 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.51654480136075 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.46407810213851 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40351118528251 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.62831652936149 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.48955700680234 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.12257494270660 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 16559 TA= 4.15500E+01 CPU TIME= 8.28322E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.59700138888905 %check_save_state: izleft hours = 71.3236111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1550000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.140E+03 MB. --> plasma_hash("gframe"): TA= 4.155000E+01 NSTEP= 16559 Hash code: 54353574 ->PRGCHK: bdy curvature ratio at t= 4.1600E+01 seconds is: 1.0867E-01 % MHDEQ: TG1= 41.550000 ; TG2= 41.600000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8920E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0867E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.550000 TO TG2= 41.600000 @ NSTEP 16559 GFRAME TG2 MOMENTS CHECKSUM: 7.9324247107071D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.55526E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 8.62533E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 8.62540E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.641E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.610E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.99276299999838 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8734E+00 8.4416E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.67242782038612 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.47772842070865 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.03812395296690 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 4.49441511902667 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.54990798995104 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 6.70322437046261 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.68871201760637 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.43146900819973 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.467421439431001 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.12158553689394 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.492981136441629 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32277744173611 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34118883766966 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.64586189431376 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 2.57284187448249 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.489896267673322 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 2.57284187448249 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.63649531430981 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.31089651603355 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.93379099070049 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.478501282390918 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.22934577427256 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 0.456609987185142 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 0.452714859118796 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 0.410665790671421 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16649853445077 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.09518869812357 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.478671821519409 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.39012456017626 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.33223165201432 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.444738514699873 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 2.37127426260680 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.475663336544656 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.00653968901243 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.20562016266047 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.29278144995073 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -3.30733405421700 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.73914966421899 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.9900865543803 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -33.5883224452044 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -76.0269371896041 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -174.117561593240 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -404.086193621886 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -952.275549518774 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2285.92284242117 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -5616.27126156928 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14230.2850625598 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -37662.3261815374 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -100367.068843907 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -320755.710895625 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3.87711198448332 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -3.65988928437326 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -8.08987854659219 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -25.6114303199545 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -72.9737566338040 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -194.692141733524 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -502.078385490427 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -1283.22120577587 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -3310.26562567700 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -8742.98172271270 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -23976.6587025686 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -69530.1734186613 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -206796.088129401 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -757838.891191466 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -12.9723003827882 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -36.6368129296819 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -311.884143913615 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 7.46946393909490 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 3.62784482577800 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30957677074358 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.00527768583628 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.33694521387712 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.82963854809387 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.26505839563294 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.15315656147210 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.55799626218213 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.96001902602115 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.09464954514796 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.37046236398360 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.56107870202068 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.30947303900480 at nshe,nfasti = 42 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13398 %fp_imp warning: RF renorm adjust = -13.0736363208239 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.99997684565752 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -16.9760249514225 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.77836070519079 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.22758981618652 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.59980838854516 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.84799664319588 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -16.0863340540232 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -208.976373238310 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -248.949751589025 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.44367260798271 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.78726378218636 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 8.70086452964307 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.31400510342637 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.61239306338378 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.353189240715892 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.22522167740201 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.21348640111789 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.60365840670566 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.34133187270476 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49548515123130 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.72454189962399 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.49557687110144 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.07888715647592 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -12.2769365965756 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.48678463011889 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.4780370711749 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.30412290510050 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.75211791741605 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.01047071665671 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.03362661598574 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -33.5416871730647 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -100.985332269480 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.22391401597009 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.49711964464367 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.70164267964879 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.479953393370846 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.45560402095251 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.75085294310331 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.432826516905658 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.29005413479309 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22361749773380 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.48991747907780 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18037369228251 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40168449112224 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.63824516413476 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.46265928867723 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.07475603481670 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -15.3021085485767 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.39476406260235 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -35.4610661899375 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.79828841131124 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.21755331184950 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.96303877404199 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.45852676787427 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.02220706037823 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -41.0505003158587 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -166.994795276097 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.37788195525465 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.60090390288618 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.24464256426598 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.473712575638818 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.51812858976566 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.79152403236653 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.467401532914172 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.29092841489575 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22270523886225 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.52839413279374 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18482313750468 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.38178292532445 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.61370427499496 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.45096758093476 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.07121530864884 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -18.4887104040461 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.29056797090914 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -54.0622075843015 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.52741654042483 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.93087960167917 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.89878784276893 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.90162945833199 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -41.2703060967017 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -178.463531073656 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.42380805856303 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.61499580580540 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.99324292869889 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.467534632654817 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.54840078618363 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.80944657090514 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.485632567990453 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.28901619529471 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.22136592021914 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.55706184332664 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19304905436184 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.36907289550652 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.59781861346342 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.44173329207863 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.06757175185780 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -20.9803558040070 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 19.2360461519809 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.21443026863911 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -73.5775313694274 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.36829070784340 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.76056732836419 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.84579779567661 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.62855184641444 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -39.2940036592860 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -168.274539197456 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.43931958335702 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.61259779323129 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.83792944033804 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.463847627011988 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.55765749154705 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.81784458481066 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.496205442611993 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.28467928455863 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.21890357140779 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.57966822630773 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20268478261706 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.35990234544212 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.58667654168952 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.43453579624770 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.06389949593191 at nshe,nfasti = 43 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.641E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.610E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15537061243211 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.82506808010492 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12266274866451 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -113.663188548813 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.09581652034329 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.83087301571926 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.26893486229535 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.23565828654816 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.55734730766937 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.406797158098849 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.17789869959175 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15485779341825 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.58496256625903 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14183317333570 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.32924864564093 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52241203499261 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.37830369723489 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.05715920666976 at nshe,nfasti = 43 5 %fp_imp warning: RF renorm adjust = -44.4436649179521 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 12.7823155803014 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.08860404838981 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.70221560400215 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -82.1891158960907 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.17813307807649 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.93527147654343 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.76600839490486 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20359513719765 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.84581015545898 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05738837952338 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.3241856701637 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -177.780439868203 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -196.919623182226 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.83603214942791 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.99339316417502 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.57096056775465 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.15863957396632 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.54268738969525 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.395371380822331 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.18551088808580 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16014326557980 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.59721073215358 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.15091345453658 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.32611269264493 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51715944864721 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.37289518410780 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 2.05381601950579 at nshe,nfasti = 43 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 17059 TA= 4.16000E+01 CPU TIME= 8.44689E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.74475111111121 %check_save_state: izleft hours = 71.1758333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1600000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.160000E+01 NSTEP= 17059 Hash code: 34963955 ->PRGCHK: bdy curvature ratio at t= 4.1650E+01 seconds is: 1.0855E-01 % MHDEQ: TG1= 41.600000 ; TG2= 41.650000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9000E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0855E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.600000 TO TG2= 41.650000 @ NSTEP 17059 GFRAME TG2 MOMENTS CHECKSUM: 7.9335185580064D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.66891E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 8.89550E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 8.89737E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.646E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.704E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.96078699999998 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8736E+00 8.4417E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = -5.18731408409328 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.7552572507802 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.7556565137917 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -72.0162819954725 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -14.8522767715473 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 17.0263175717770 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.27345469607063 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -15.9973337619330 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -6.52159841314378 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6547223043513 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -41.4062133424523 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -3.56417505379718 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -9.39424038310563 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -22.2228342209189 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -69.4446651947949 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -44.7969993579100 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -939.998902850001 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.86093644315648 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.09166980658598 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.04435145372987 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 3.39564916430526 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.441317436034346 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.22351134362281 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.70942361963169 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.37597489633666 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.31324306823086 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.24849261078950 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04098272478293 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.26097862465486 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.44392554869328 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27861477933321 at nshe,nfasti = 42 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13398 %fp_imp warning: RF renorm adjust = -12.6029005966710 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.51465461312495 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.68255448314258 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.82779198574856 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.05010452989129 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -10.7260073533255 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -25.4290450130750 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -79.5119149100675 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -85.3322950712448 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -165.337649171143 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.56161970181378 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.69771433343829 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.34109760192454 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.31667987849931 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.88937156101168 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.475184348209255 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.80782174534458 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.58441677143169 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.26471092823361 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.26397639149166 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.32442556273140 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20436273423783 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.34409850152554 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.41782594116540 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.25141425462103 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.33622053648718 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.17851074766194 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.52379387203578 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -11.9760192657510 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.3658458789389 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.0902833659157 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -65.5665027938086 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.36825278297150 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -11.6826555906251 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -27.8206382912409 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -87.1732023195362 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -129.794111081824 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -328.169043203503 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.25949493169794 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.62984789618350 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.30813143557916 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.22762964775793 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.86714109313397 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.446153529136067 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.77856735413238 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.57468997640479 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.23248012364785 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.24644508677899 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.31177704018934 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21693576476872 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.38428722140761 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.43742793221369 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.25344931055725 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.26981744971702 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.55432988754377 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.37628390285927 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.60938243042705 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -12.3999375654224 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -29.6128325577926 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -92.9246964016769 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -184.259064565449 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -735.497400480239 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.18270249623637 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.65642140614639 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.31317779653527 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.20457451849731 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.86229064763773 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.433764594636499 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.75058206327748 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.56166745936526 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.20368236501051 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.23050646887582 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.29480685450661 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21749212275152 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.40710713123292 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.45282121756973 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.25669875411087 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12722876401551 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.11646694624543 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -15.7917290472252 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.4698462900663 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.3055831206988 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -69.6312175599914 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.79342220137688 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -12.9602604774739 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -31.0283142093760 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -97.4984663060416 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -248.658996465058 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -2249.74791400556 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.13321633051062 at nshe,nfasti = 21 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 21 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.68406035971072 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.32471205000237 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.20836163065167 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.86860296923572 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.423719024881272 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.72684471718435 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.54995802394467 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.17825864082915 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.21638666091938 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.27815055144627 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21528327712258 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.42325754572223 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.46546994146235 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.26005758575228 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.21148079267152 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23770776508090 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 7.23664845340633 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -4.94112432850073 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -13.3909941226428 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -32.1003750835290 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -100.942224921902 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -473.101759041263 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -23.8101610403038 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10440947038418 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.99235174050425 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.72197253746674 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.34610816617107 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.22157231955025 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.87844891400529 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.416150254459425 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.70776421291314 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.54029246505333 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.15603508257806 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.20396282373978 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.26220557483734 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.21210278166324 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.43575941964247 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.47595614091638 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.26320349908907 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09951434281534 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.19723957255423 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -20.3411754275517 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.9880957643793 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.1463564599764 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -72.4430094752926 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.09260971620132 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -13.8378828172666 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -33.2200264216127 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -104.558862325711 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -14.4633109743855 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -46.1066044255519 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.09878058757519 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.95950550255033 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.76941406873255 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.37046868218458 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23827707633713 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.88932470020395 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.409979105289571 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69263493572880 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.53245591605654 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13649995990010 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.19295716619449 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.24713286702175 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20855989012870 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.44573752490205 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.48464019387050 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.26599677008651 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -149.964122206832 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -397.137773338480 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -68.4315529510254 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -249.748219151978 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16867934830966 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08173221979915 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.59006685098139 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.24703695394948 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.2686356617058 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.2762472882651 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -107.940765073020 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -15.9743734758990 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -51.5317415061757 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10339985310463 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.93952905524052 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.81600991551557 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.39619059499203 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.25463533113124 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.89958232725111 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.404752148640862 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.68012917622098 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.52583964103751 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.11910971110043 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.18308486391640 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.23303272172088 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20493037763286 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.45381216970362 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49183015412593 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.26839819449560 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -15.8906715490526 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 15.1557535387372 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.28608729317521 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.85674170231503 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -26.5164552294716 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.2607727275031 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.8544813022237 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -74.8112119340501 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.36422756162941 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.6175503021749 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -35.1546670882502 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -110.790601950048 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -16.2538618000997 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -52.5415346182566 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10843517096219 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.93196940379050 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.85366624340294 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.41728289228896 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.26912029364545 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.90865659070959 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.401186763252150 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.66944200181292 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.52011580138665 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.10349684858345 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17417181522553 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.21994050916634 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.20135206359288 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46040105033322 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49778815558783 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27042025780815 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.80359947446623 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.422586063249635 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.15191566714787 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.46014374331136 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.8871761441401 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -35.8180376013872 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -112.919427197494 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -16.6047419771742 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -54.0793339511588 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10358010020033 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.91917162117838 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.88621590506693 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.43574723803668 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.28198906114746 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.91674498658133 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.399621567580125 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.66011866396250 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.51506548495816 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08937477546199 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16607211912781 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.20783227545508 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19789483350370 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.46581094062434 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.50273080346434 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27209739514073 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.41634184821325 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.456326194611037 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.05652006029023 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.42091636311164 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -33.2234025847680 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.2040091620747 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -23.4505259311508 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -76.8084068424933 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.53231106146569 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.1104376922377 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.3884738406533 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -114.784040238300 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -16.6753898280601 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -54.3702510257396 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10827806671602 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.91515122751110 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.91626627808636 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.45292753598369 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.29364380654770 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.92417275476720 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398541601014418 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.65195044374424 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.51059711000170 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.07656446468528 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15869525944732 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.19665610799473 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19459306949308 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.47027552508560 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.50683473127207 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27347052345138 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.97453511663389 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.489025632451278 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23058241437022 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.47756828908518 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.89615424140993 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.59576337994683 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.2873718889545 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.8223316810912 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -116.174558710263 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -16.9675523135823 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -55.7366876532257 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10494014713213 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.90602966805760 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.94268673012057 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.46817651354298 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.30391621521703 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.93074827404837 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398038177484847 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.64463304783794 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.50655808348533 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06488299172969 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15194470153022 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.18634652153580 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.19146195468634 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.47397557538309 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51024317349816 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27457993762531 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.487418815153865 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24462945025346 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.15198998723516 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -40.9227007722988 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.9273191938977 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -23.9159797548642 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -78.3635157847791 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.64364131366800 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.4411426750830 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -37.2206645196293 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -117.485642020691 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.0126631751236 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -55.8470231452074 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.11000056394474 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.90438016354510 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.96695056605169 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.48218395639603 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.31311611348185 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.93667259176823 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.397958082907788 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.63806128648111 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.50290399718621 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05421270062394 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14575967512286 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.17683664902441 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18850626474235 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.47705274589610 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51307237951032 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27546238828367 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.489971075971922 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.27720641569286 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 9.01795012760698 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.70346065144303 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.68867859659117 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.5645441968851 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -37.5209351271516 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -118.444634699613 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.2715653010933 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -57.0840675114543 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10658573133789 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.89682613142805 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.98826761317929 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.49458779353847 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.32121963751831 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.94192528512161 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398011155414521 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.63206914740972 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.49954864153333 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.04441863690471 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14006683289550 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.16805655807611 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18572434911598 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.47961880829019 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51541712267073 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27615017417372 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.483201782958608 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.26165638874814 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.92595736047049 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -50.2337438231711 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.5119196009996 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -24.2951524573044 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -79.6318804641123 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.72191434176987 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.6759606443740 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -37.8138785464661 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -119.415877670506 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.2725522707264 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -57.0215048851729 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.11130651145931 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.89618168178038 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.00796338151730 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.50603458997697 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.32850089388613 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.94665583651523 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398088624694588 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62661050682369 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.49647477140356 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.03541805201119 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13482244458970 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.15994320780194 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18311109135734 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48176273751440 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51735517242438 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27667115116106 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.484007719843349 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.28168301998681 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.66311062166734 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.55334894979002 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.75538793346284 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.7655052418859 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.0293943719192 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -120.100571260164 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.4997311791670 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -58.1492430005876 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10789026622812 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.88972918391353 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.02513115017661 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.51600449544020 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.33490077793785 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.95081668505292 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398274564024719 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62155987970491 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.49361451102570 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02710449708154 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12996728369348 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.15243465260403 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.18065945889738 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48355586502356 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.51895019694340 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27704914528247 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.477005780775359 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.26130738341949 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.74636212104828 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -61.6947709305506 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.9867236310770 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -24.6126390810969 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -80.6969803896157 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.77917378492344 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.8494411281813 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.2538234925092 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -120.850645268272 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.4698839862809 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -57.9530618083582 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.11263327510585 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.88995436120903 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.04112176773074 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.52526848649986 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34066481907151 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.95457237707024 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.398675073658249 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.61690874520914 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.49096799565391 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01941829521023 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12546923046552 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.14547610344396 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17836157952067 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48505568597513 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52025497634918 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27730444712140 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.477555052927216 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.27701384279714 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.38036288077390 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.43248009003284 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.80500969576778 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.9164892490079 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.4128944180043 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -121.352439889388 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.6753792850570 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -59.0012578288453 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10906906270847 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.88404007082561 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.05514402430203 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.53340757101808 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34573991628780 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.95790142599101 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.399365693433264 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.61256598783156 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.48848416492152 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.01227412852838 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12127996177423 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.13901809705177 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17620862122962 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48630887988597 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52131333732122 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27745433641091 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.470789333881397 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.25470797183314 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.59351494305830 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -76.3645860950968 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.3896865889308 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -24.8825110363260 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -81.6054548161104 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.82241634906712 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.9817752392529 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.5907447226962 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -121.952043605063 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.6224800527849 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -58.6993159354601 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.11337000765877 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.88459836283303 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.06846068920562 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.54111500873754 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.35034828410158 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.96095631846640 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.400059848394656 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60854134779587 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.48617189239581 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.00562930544121 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11737601686617 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.13301114914576 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17419219253753 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48735355502105 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52216185520512 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27751353762947 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.471328520892133 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.26794833230149 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 8.14230646187636 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.33261387730791 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.84301033162532 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.0332782215280 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.7107139254201 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -122.326996160307 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.8134096481517 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -59.6932725386701 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10862195567290 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.87834344040220 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.07996471222170 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.54766440861158 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.35437111326831 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.96364046912733 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.400848209434252 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60474610342452 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.48398180012607 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.99941278069449 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11371710343911 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.12741519266564 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17230376081142 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48822098009496 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52283117496605 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27749463391664 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.464852115167591 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24463991910640 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.46327921396836 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -95.9687821792912 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.7292337016544 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -25.1147463866814 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -82.3906864094415 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.85597949392080 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.0855043088727 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.8558822950270 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -122.820961510326 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.7462763091879 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -59.3250926487014 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.11171889920121 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.87843688710256 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.09102486980774 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.55398101590286 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.35801177927763 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.96609206693628 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.401598853301707 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60119393940282 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.48192460972259 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.99359506360919 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11028722172302 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.12219435322590 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.17053536584578 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48893696207695 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52334708405704 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27740839534091 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.465417961815364 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.25625566413991 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.93188958747647 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.24678361979645 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.87283714895788 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.1258710759605 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.9477987095739 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -123.104869192755 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.9266396383911 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -60.2831482956918 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10633639733277 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.87209794288869 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.10051546535225 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.55939548990349 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36116442427406 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.96822982730792 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.402386643704530 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59780934496530 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.47995688332556 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.98811753422583 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10705263294906 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.11731368503158 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16887925797998 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48952292117410 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52373136478294 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27726406885167 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = 5.23451737748394 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90402360910986 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.459272315030926 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23267498265444 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.34952509211173 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -123.857280566593 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.0192065981415 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -25.3171159935786 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -83.0771801341244 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.88259887388847 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.1686256058878 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -39.0692546891595 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -123.522205305353 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.8480166922327 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -59.8613325556833 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10881013038787 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.87208476861826 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.10966006204292 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.56461377691041 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36401759720365 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.97018061491781 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.403156743354079 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59461708680882 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.47809496244937 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.98296155975997 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10400332539153 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.11274493235312 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16732836342502 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.48999671791752 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52400246946610 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27706962180482 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 8.18866533724760 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.20904051408458 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.69199293770793 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.459912516622934 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24317503864077 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.74600726715623 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 5.17107737647214 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.89672572119215 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.2008252586585 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -39.1405798206705 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -123.739275220806 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -18.0207563488224 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -60.7949410752546 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10275848708158 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.86557222233105 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.11739109085252 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.56898975571683 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36645558364995 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.97186524498622 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.403964797787761 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59155165888248 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.47630074930233 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.97807810988852 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10111089610101 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.10845979484090 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16587577068571 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49037331441776 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52417608261546 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27683193728423 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.94896147913163 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.454208533922342 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.22096687684888 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.24807229809109 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -167.548946363501 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.2698832947408 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -25.4959632118450 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -83.6858694590377 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -5.90412778167683 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.2365686765848 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -39.2444596358028 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -124.099809159468 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -17.9336853899454 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = -60.3957007988258 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.10456713451793 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 4.86537571203234 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.12488706821144 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 3.57326537659450 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36865825720160 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.97340501183823 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.404732764289024 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58864264350441 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.47459330610562 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.97345661864644 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.09836993258346 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.10443590744363 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16451531860115 at nshe,nfasti = 27 5 %fp_imp warning: RF renorm adjust = 2.49066531563413 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.52426557825963 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.27655697787980 at nshe,nfasti = 42 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 17559 TA= 4.16500E+01 CPU TIME= 8.32797E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.98469500000002 %check_save_state: izleft hours = 70.9361111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1650000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.144E+03 MB. --> plasma_hash("gframe"): TA= 4.165000E+01 NSTEP= 17559 Hash code: 38693461 ->PRGCHK: bdy curvature ratio at t= 4.1700E+01 seconds is: 1.0842E-01 % MHDEQ: TG1= 41.650000 ; TG2= 41.700000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8780E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0842E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.650000 TO TG2= 41.700000 @ NSTEP 17559 GFRAME TG2 MOMENTS CHECKSUM: 7.9346124053056D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.75696E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.10337E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 9.10473E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.651E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.899E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.98806200000035 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8738E+00 8.4418E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = -7.49295264806424 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63463310480010 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -3.47047115786310 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.29928601976593 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -3.57115758788136 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.80961095945659 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -5.76618423731141 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.85693404212235 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -6.18873444410901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.90060546561934 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -16.6344561170187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.36067430584650 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -8.71365943203627 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -14.0034515641881 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.62975940623469 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -27.2737846699559 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -24.8753257731632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59749028385765 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.35299598896928 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.07177228763662 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21798378608849 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -9.62834904405509 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -7.05325096989257 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -8.28156861196910 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87540869019810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17443463991739 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.14442922085403 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14385285354959 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 4.90654477193359 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01548941446228 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.74846752510310 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 2.50254531655059 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.81988612960882 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.80947893096463 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.27983163769915 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.53999899527251 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.88553725379391 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.82991476382673 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.06856244830518 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.37838404687033 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.28513910883500 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.36047850458382 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.74528493291701 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.84812873515100 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.21895383153626 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10118569761792 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -33.6193921381012 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.0695777238726 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -43.6457609601916 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -125.843526593787 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -357.542198878829 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1365.50183197981 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -6.38350752430577 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.4266800939854 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -54.0837211446008 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -161.747869154530 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -469.487868862286 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -1821.92198672087 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.60340469175535 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.494632815311797 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.61512194932033 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.53809605811793 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.55677898812353 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.460011468672569 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.09748351965517 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.38108560822962 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.15877372962459 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.288640767930712 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.72409402268557 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.86238472166164 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.45141226310237 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.39991540369734 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.17761974407172 at nshe,nfasti = 42 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13394 %fp_imp warning: RF renorm adjust = -54.5327016416516 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 17.7526932720125 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 9.64345872598691 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.07877827753027 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.32717541426839 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.12411149679006 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67847075572992 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.5978628027924 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -22.8030162986518 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -66.3341000942250 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -254.472827990841 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -306.621264448748 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.04336107813705 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.54092907533583 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.18439957484874 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.04931947435343 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.298662003204111 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.02160205975544 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.08499371335682 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.04301302245458 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.07379706513531 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.50869188507167 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.55977122355110 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.32124310822242 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -60.1320963899324 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 16.4859767276277 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 9.01073057502421 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.22339249132773 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.25619798606035 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.84444033270127 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.39007446076524 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.02737497548071 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.08274897379352 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.9834010297153 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -22.0514415517413 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -63.8408260413209 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -243.827722382392 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -470.244806484328 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.37524558543612 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.83811441085514 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.34679166890231 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.23599331745430 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.02233159018813 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.271119434074482 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08792054169685 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11505315145647 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.99632830272313 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.01782890387324 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.41234061923901 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.49849842821667 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.30054390162046 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -124.722426292726 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 14.7093990382582 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 8.30256504230206 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.21360673667973 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.35723217342513 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.83655162334127 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.44420587074645 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.07590767695755 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14740923413833 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.3972778089190 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -21.2149235702915 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -61.1743062149398 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -232.491594973235 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -214.859361705229 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.58035280447131 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.00278095767175 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.32368752874497 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.21658386792009 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.04521392715861 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.280043840565635 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.12704401310396 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13488894042240 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.01748071379179 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00371710550587 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38797130742761 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.48046635326665 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.29559051453461 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -432.970985853539 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 13.7418371762765 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.88443249835818 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.17021129484728 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.34745584555277 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.77869854173195 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.44556107821836 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.07591679440799 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.16286349848081 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.5397033627614 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -20.6530083860908 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -59.4284841503668 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -225.286268974371 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -146.002016701288 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.70151628155316 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.09255498039439 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.26374525948618 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.23820409621399 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.07721639612487 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.287683500939889 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.14956172728216 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.14636584449890 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.03948267278133 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.37386622181713 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.46969431505845 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.29225081899856 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.07055227769954 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.31639293728551 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.72956718519116 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.42778441145096 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.06628536149186 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.15946915300920 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.0033944540458 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -20.2895409529807 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -58.3339131194973 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -220.959803001010 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -117.745279551754 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.78007576261599 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15017719007325 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 7.20332104315245 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 5.25336493720451 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.10203765011215 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.293668295220962 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.16113246810511 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15237880628557 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 3.06023231861052 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.36505486279023 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.46315874788082 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.29003260341581 at nshe,nfasti = 42 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 18059 TA= 4.17000E+01 CPU TIME= 8.37033E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.11638972222221 %check_save_state: izleft hours = 70.8041666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1700000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.170000E+01 NSTEP= 18059 Hash code: 97648465 ->PRGCHK: bdy curvature ratio at t= 4.1750E+01 seconds is: 1.0830E-01 % MHDEQ: TG1= 41.700000 ; TG2= 41.750000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8910E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0830E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.700000 TO TG2= 41.750000 @ NSTEP 18059 GFRAME TG2 MOMENTS CHECKSUM: 7.9357062526049D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.87405E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.39219E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 9.39047E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.656E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.017E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0312579999991 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8741E+00 8.4419E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.9 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.63606546860381 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.21237615584543 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.76004922625204 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64701346327669 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.52316975354646 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72760447298671 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.28923539452982 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.08869712998093 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47133602558437 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12589493991476 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.14900555043430 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.49588293772463 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.71204442061160 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.29043474720367 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.30183560686889 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.11934669303226 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34988596879479 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.00518547996797 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.9723970158067 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -43.0186907080836 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -134.891540878952 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -583.948368707337 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.50494628949111 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.49360647009533 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.24071103149420 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 6.32464853772978 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.13083324207727 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.348629994536637 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.74571878873850 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.38479497923661 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.424528165735353 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06229222502713 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11114875629939 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.75947170898497 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.28009422774958 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.35054092619400 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.17515544241844 at nshe,nfasti = 42 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13390 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10041294928225 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.18106071410607 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21309896004983 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.48806910971203 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -9.24577180220479 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -35.2540695588796 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -112.058345633454 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -471.702284448736 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.85315852926732 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.61590995693056 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.33339463003698 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.65126948645821 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.321600385453855 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.65925966406854 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36701366974316 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.414822835755483 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08117819250742 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12013157057497 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.83881660453717 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00480425488274 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31410109120292 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36271554721354 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19823003218605 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.08846397942848 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.29995812053815 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23794565073296 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.41877953041546 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.88557943437342 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.5102120474425 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -109.273193718516 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -457.757008274584 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.94313418468970 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.70634741851508 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.40689574235387 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.58090160534813 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.333739477933098 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.64022918227378 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36203104322547 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.410791423660340 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.07598041753209 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11761966613688 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.84202073984439 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00534901604205 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31722637969711 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36576847061900 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19907156060339 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09402987446717 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.41511781628402 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24809482516414 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.41652939234279 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.77197005154747 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.3359782210552 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -108.806868237212 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -456.687158609816 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.97997706266680 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.77146358919417 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.43590528865158 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.58817980249539 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.332346852253671 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62836234203601 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35797072809595 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.409284971789827 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06926323332242 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11400208004760 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.84553682172160 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00516034428725 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31860934273394 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36720543237937 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19867854022086 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -11144.4112886173 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 8.54954334729694 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.53614358532240 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20640848461827 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09646737782915 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.48696661179380 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24956095680103 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.41868295410394 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.72591323001129 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.3101487433379 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -108.947762532187 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -459.004362061752 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 3.00195730707051 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.82938925847305 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.46370572877308 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.59231814831387 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.331440652649577 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62180286297011 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35569440898927 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.409052888065359 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.06331694449648 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11070478592635 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.84785469906512 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00450388826012 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31885563939625 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36742104270482 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19768503795804 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07405036466722 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.52234033109976 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23766437080505 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.42079615002410 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.70002309328585 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.3118911739159 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -109.187475335319 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -461.842675594043 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 3.01700300042911 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.88159589723600 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.48750461668041 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.59473528023132 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.330180277331060 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.61696461705630 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35373748669896 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.409360368194954 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05806318963916 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10768643116695 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.84934914574065 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00362757841619 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31841915893638 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36688342607108 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19637187192474 at nshe,nfasti = 42 5 %fp_imp warning: RF renorm adjust = -862.359686863170 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 8.53360277638216 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.45877408035056 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14590719412689 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07036450259886 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.55779538332377 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23039951702887 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.42145232672356 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.68005433192251 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.3182104422842 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -109.440006113735 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -464.734623029857 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 3.02809334502880 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.92848888518473 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.50832529987080 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.59501498106164 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.328918832293534 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.61278400995418 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35188085721371 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.409877332677213 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.05324006460724 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10486891935363 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.85033384931414 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00268933839426 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31763714934273 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36592650276002 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19491048692958 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.05008851064588 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.56874998528263 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21596291627820 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.42085954293418 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.66144843475826 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.3168783381407 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -109.655677491445 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -467.395482932561 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 3.03667924249174 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.97081667006762 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.52658532890390 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.59384920527147 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.327654435785577 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60884144539518 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35004670898231 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.410468512273485 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.04870691564601 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.10220344412828 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.85102094990344 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.00175921189062 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31669988798812 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.36475472305714 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.19340056298091 at nshe,nfasti = 42 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 18559 TA= 4.17500E+01 CPU TIME= 8.34118E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.25935000000004 %check_save_state: izleft hours = 70.6613888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1750000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.156E+03 MB. --> plasma_hash("gframe"): TA= 4.175000E+01 NSTEP= 18559 Hash code: 116316018 ->PRGCHK: bdy curvature ratio at t= 4.1800E+01 seconds is: 1.0818E-01 % MHDEQ: TG1= 41.750000 ; TG2= 41.800000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0818E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.750000 TO TG2= 41.800000 @ NSTEP 18559 GFRAME TG2 MOMENTS CHECKSUM: 7.9368000999041D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.93715E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.54398E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 9.54305E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.661E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.115E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0114439999961 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8743E+00 8.4420E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.7 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = 2.18423686573325 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.40712993742070 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.48513496351876 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.31381487647265 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.38189872512810 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 6.45751594537192 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.81725226849167 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06668519734877 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.85383244305926 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.54882445143352 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.6024893722682 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16.3043493500866 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -46.1958171650780 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -177.087532165837 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -213.771649330029 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -79.3212966350162 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -927.693520609275 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 7.51047254589313 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.29501340987995 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.80728769210733 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.41297260322494 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.356167498811289 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.42836399969211 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.20990318239157 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.297590516885594 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.08093304921697 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.07450667180028 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.64468025049412 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10133996528498 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.36806575352662 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.26468241146283 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.11379956820716 at nshe,nfasti = 42 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13380 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13561009870297 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.52245904044343 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.06192547856614 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -26.5602347759194 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -65.9060199333602 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -456.358127275928 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.57185424821340 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.55290507270116 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.12095809562563 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.79888992016229 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.338541765117396 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.52927140704637 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25117957269161 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.303591086251374 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13359755055285 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.08808612922386 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.61985752071796 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11597531509808 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38551472202768 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.28791875154883 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.12867807074170 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04163256518517 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.50061120506651 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15953190584904 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -23.7084859550572 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -58.2058629445900 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -341.750556984738 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.80111771427053 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.63252713128958 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.19658077899977 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.84467881263796 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.339041098305577 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56528513265122 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26640144432162 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.306731579070129 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13622689453771 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.08987643671173 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60801392230732 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11839197127643 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38616731169201 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.28728471192440 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.12998135104596 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.42819030242615 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15633118804476 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.9078346886056 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -56.0849329444768 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -315.801163599235 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -68534.8050388890 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.87112458563898 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.66760877799151 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24292175588281 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.87851078052613 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.336486777792057 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58770829291037 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27583980811959 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.309059711511141 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13627192785783 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.09085261680494 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60332467361864 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11875869855199 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38508856118376 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.28626260226514 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.13002831581636 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.38570322165729 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15001714410430 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -29.2246928665559 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -63.1662125241002 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -413.424212992156 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.94039361781935 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.69708786704527 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.28359611269615 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.89847304730025 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.334543235432867 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60287741574935 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28292199789102 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.310948202780505 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13718600440235 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.09194924430641 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60268678755896 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11846466850407 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38365697650944 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.28498798351634 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.12943489785649 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 15 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.34167524067921 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.13501967278408 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -22.9894480742679 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -56.7564943235806 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -329.706202932523 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.98033682311755 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.71683754652624 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31930801291785 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.91263404391702 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.332652093484405 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.61307917640241 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28822721448965 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.312531994016478 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 4.13862674841124 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.09303619897683 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.60425513023606 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11802846986159 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.38226845404824 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.28366960851193 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.12855778237555 at nshe,nfasti = 42 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 19059 TA= 4.18000E+01 CPU TIME= 8.47939E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.39095416666669 %check_save_state: izleft hours = 70.5297222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1800000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.247E+03 MB. --> plasma_hash("gframe"): TA= 4.180000E+01 NSTEP= 19059 Hash code: 31348331 ->PRGCHK: bdy curvature ratio at t= 4.1850E+01 seconds is: 1.0807E-01 % MHDEQ: TG1= 41.800000 ; TG2= 41.850000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8710E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0807E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.800000 TO TG2= 41.850000 @ NSTEP 19059 GFRAME TG2 MOMENTS CHECKSUM: 7.9378939472034D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 4.01939E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.74403E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 9.74346E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.665E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.294E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57721999999922 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8746E+00 8.4422E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 8.02445524165783 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.27431641888207 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54028984410344 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.42144806790514 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.99289532146982 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.05466537365019 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68205770719554 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.83545177586196 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07479517950537 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.69182828424532 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.53565242881127 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.88252204553328 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.40594579958725 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.28682075898087 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -59.6956184012854 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 8.63426568795933 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.38062669055592 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.69223779544649 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 9.18705745783584 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.20389286497069 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.42159661508917 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29018372332309 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.89633082104945 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.2422228531622 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -96.8150805540754 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -2233.04690643357 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.82968210374808 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 9.45775755858515 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.491767386549390 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 7.12497951143408 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.26328780280679 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.434173563866176 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.77170488115385 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.93178544491066 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.62964700001857 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.38635610522309 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.90620471475320 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.40749605264147 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.04952986885847 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.22328570350933 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18310369723095 at nshe,nfasti = 41 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13378 %fp_imp warning: RF renorm adjust = -344.783707457119 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.37978483581929 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.85041766800848 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.31269562654847 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 8.62301187192699 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.75196446909969 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.6451968212604 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -69.4712643498391 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -539.044217675602 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.70169689413727 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.02945949751313 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13192319965232 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.14681615399229 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.387597553701040 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.52523632017146 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.81354929814957 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59641564838624 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35755518447892 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.89633475806443 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.46077279737359 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10886229813624 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.29498181310465 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19054821482259 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03413442515420 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.76693625772408 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.58510505349335 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.1584372067674 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -62.8064759791662 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -420.028100239245 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.61018728310095 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10692214529455 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.99981132686874 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.08032055287098 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.369017049851788 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.44843949854811 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.77868389888897 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55624585676277 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.33415393264557 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.83768969337585 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.43841267777688 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11291763175155 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.30452059266502 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19399025022026 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03509662969658 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.56792736644636 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.56641907044886 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.1325926442674 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -61.4425221867457 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -401.346535328840 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.54760298185635 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.16343239051668 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.95488482843931 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04463217447783 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.359556807923380 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.40169348981052 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.75701580822260 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.51717179193066 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31424960974279 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.79795999237350 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.42655575313365 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11544208744116 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.30979080887220 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19653191531463 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03488878601903 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.46109866849523 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.56675284869342 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.1989134237650 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -61.3767956999471 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -402.720286396506 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.50441323366878 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20193138050742 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.93482928656618 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02321027597347 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.353764524730872 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36831795334354 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.74168999756056 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48502795547689 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29840643514819 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.76860576814242 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.41853507517546 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11714113224322 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31282676502685 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19808880767535 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03441961103137 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.38221986525771 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.56982346616052 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.2760097137661 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -61.6135339240833 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -408.727858061882 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.47350213964676 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.23020177880844 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.92413075805006 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00915093735546 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.349764588639145 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34348356327413 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.73025462670181 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.45932292915708 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28583636409398 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.74585501544390 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.41248594363580 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11820093280710 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31442466144263 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19880313000745 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03383994719157 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.32215386332434 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.57268149272523 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.3472804873264 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -61.9162852188978 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -415.843531946966 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.45067340551792 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.25085618527381 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.91751068539211 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347220160727014 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.32421206435144 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.72133437679103 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.43856812922167 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27569850218942 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.72764739638206 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.40765220311911 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11878297398960 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31509166200942 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19893767127998 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03319658287961 at nshe,nfasti = 42 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.27022344700473 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.57470873263461 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -11.4034468245869 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -62.2065719112466 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -422.913719292354 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.43314706448097 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.26870078003594 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.91337162082521 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.348660580662902 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.30862937028506 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.71410037747271 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.42153252146813 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26736453629052 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.71268708615880 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.40364986419116 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11903018728641 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.31516796883310 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.19869643192642 at nshe,nfasti = 41 5 %fp_imp warning: RF renorm adjust = 2.03251557989205 at nshe,nfasti = 42 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 19559 TA= 4.18500E+01 CPU TIME= 7.69751E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.53386583333335 %check_save_state: izleft hours = 70.3866666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1850000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.185000E+01 NSTEP= 19559 Hash code: 116858363 ->PRGCHK: bdy curvature ratio at t= 4.1900E+01 seconds is: 1.0795E-01 % MHDEQ: TG1= 41.850000 ; TG2= 41.900000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0795E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.850000 TO TG2= 41.900000 @ NSTEP 19559 GFRAME TG2 MOMENTS CHECKSUM: 7.9389877945026D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 4.07410E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.86629E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 9.86636E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.670E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.485E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.55505899999844 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8748E+00 8.4423E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.5 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.4984364588037 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -10.1026991353377 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.83717535066787 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -411.012317437707 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 11.1533304431383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.8649674400964 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.40403259060309 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23588904406342 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.07603741945306 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.98218903881305 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84707734976215 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.86050887286318 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 8.45044686058673 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.67658588796499 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.38904274564511 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.66864057863204 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25086443585843 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.90488745178574 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.02747378910603 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.23932337452319 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.83228772362152 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -8.56430764155563 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -18.3867502173271 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -52.9842475712961 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -208.439164729860 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -133.356934817294 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -85.4889813598774 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 7.65334542951032 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.99247785268187 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.41899090418780 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.22290270624770 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.34592821355874 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.330380999921300 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.27075328393759 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.18479542070875 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.346187455743984 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.55887415987530 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.27948675418971 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.12993791775555 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.26300603880897 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.16453779979045 at nshe,nfasti = 41 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13374 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.77765372570923 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55584228885528 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.46097686399283 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -136.788726053853 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.8940206907911 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.9964985401128 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -253.258061402587 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -26.8545152104340 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -54.7407439903986 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.08811060708779 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.97175356456558 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.91344492615601 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34184247104012 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.34236001627102 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.339213778042973 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.34525215960534 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.21537179971505 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.355710546358178 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.61581458793478 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25054350637727 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.12196229505072 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.27792545725105 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18671184622232 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.94654463525195 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.50524283405183 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.29536871362114 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.59141123114194 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -24.1307023729515 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -49.8270411852721 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.11610065635727 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.07538243468948 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.86482660730786 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.34315954636398 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.35712612761149 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.344996344035403 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.36223319768358 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.22215159731213 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.361088948187213 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.62674547622601 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25125665460530 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11725653892479 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.27317092616149 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18610266030538 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.79807110938971 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.70827819465420 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.92188553000201 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -7.42052304312352 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -17.9989351790976 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -52.9721340620089 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -212.982451115482 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -21.5058946216584 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -266.735527760023 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -1132.36114030962 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.12818496369677 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.31055061745808 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.91818868061765 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.37181889273823 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.37767640545972 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.348517324414649 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.38064475967361 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.22979070048246 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.364560751912455 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.63601488414791 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25382539804740 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11369185699833 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.26998347992089 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18514720918149 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.92009428995812 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.57492091032673 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.53042616909133 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -51.8877172749787 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -20.6829387305588 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.2962549251068 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -236.516658393665 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -32.2023733164069 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -1185.90157835318 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.12293772134950 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.23194746590443 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.83141836856352 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.36505002524249 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.38296948223532 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.351388547028450 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.38246385890996 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23043032399232 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.367220148201781 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.64075052314274 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25695807109405 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11113075434422 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.26779489709701 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18434361286912 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.90017151423739 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.51048903925270 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.34033607157060 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.22119877245225 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -22.2582403391631 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -860.407297698073 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.13545687680311 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.19740556222609 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.78822568763115 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.35496854660808 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.38619847833647 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.353532244932395 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.37881454589704 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.22822685742321 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.369220552343120 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.64260248824817 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.25982494135643 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.10934371896784 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.26626568039553 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.18373426247378 at nshe,nfasti = 41 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 20059 TA= 4.19000E+01 CPU TIME= 7.79584E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.66427277777780 %check_save_state: izleft hours = 70.2563888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1900000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.263E+03 MB. --> plasma_hash("gframe"): TA= 4.190000E+01 NSTEP= 20059 Hash code: 40967342 ->PRGCHK: bdy curvature ratio at t= 4.1950E+01 seconds is: 1.0783E-01 % MHDEQ: TG1= 41.900000 ; TG2= 41.950000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0783E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.900000 TO TG2= 41.950000 @ NSTEP 20059 GFRAME TG2 MOMENTS CHECKSUM: 7.9400816418019D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 4.15204E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 5= 2.07534E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 5= 2.07670E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.675E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.673E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.61435099999653 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8751E+00 8.4424E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.4 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = -54.2340655354476 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.61052258356347 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -352.014029218597 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 16.1464752308391 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 9.56210808209453 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.49886863117506 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.85586583858287 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.38007500103341 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.98874198735318 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18610653307079 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -6.28804017718686 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11.0541982183672 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.6137703468835 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -113.536026946199 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -25.1104334192779 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -77.6672879060031 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.39194604560027 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.52040471524711 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02025871834455 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.440728112760981 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.50154842692580 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.43350083082915 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.414629077728850 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16293997690596 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63415416577503 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.34828115086632 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23568681740234 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.43935507450110 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11328391394702 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.09083952630201 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.21571586611677 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.08399291313612 at nshe,nfasti = 41 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13370 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29827894132944 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -33.2768796414496 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 17.7494515167667 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.65408508774684 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.96694134105675 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.49497869121022 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.65864709425811 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.3016000747462 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12.6984355911537 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -32.9644439509484 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -126.587078163526 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -27.9370763831816 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -98.8659991374033 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.22089744473721 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.32637329088698 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.479740524287330 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.95992571807287 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.31020414493555 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.387315416732473 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.21385088122466 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.66059697182676 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.31617127542601 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.22823614092119 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.46534610270349 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.17026677840378 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.13405187546442 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.24131438263967 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.10227962745813 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49824841697398 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.9952969755119 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 19.0709373836077 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.70178187084330 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.98472955129812 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.45319089723588 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.71333150930869 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.56239233027197 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.1531661245599 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -13.6359643285307 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.3623459904340 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -134.746616489618 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -29.4549131072668 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -111.977604438914 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.16977451212793 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.26978194194306 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.482040006632076 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.83748154929628 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.26273914090319 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.376609126210618 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.21304403287491 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.65558694023273 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.29564002906230 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.21839733631758 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.45039047254360 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16471455275004 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14103702112875 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.24850742668441 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.10789092689662 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.57934613668306 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -22.6276864684496 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.75516887713121 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.15432023589034 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.47884989483001 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.51698520416188 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.52343831970218 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -29.3944318816292 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.0365823407815 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.9140974902529 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -138.142398643932 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -30.5869814504186 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -121.562043553703 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.14506472985073 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.26510589184754 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.484102258067671 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.79216319093165 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.23943665264954 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.371230761825959 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.20086561902631 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64913965482851 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.28087449118385 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.21084650051744 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.43984411522498 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.16130495691592 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14473660338602 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.25281264321411 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11058096856395 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.62571770264593 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -20.4965910461987 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.81246459220976 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.34249750742162 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.51464356457424 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.45962660631504 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51217480885405 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -35.2548267598317 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.1648742816266 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -35.0237791222120 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -139.030821774104 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.2758751739724 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -127.169580853600 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.12981984970946 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.27180219972620 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.484994573484059 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.77447977493015 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.22712767998357 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.367991118755967 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.19020282169996 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64404212642229 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.26886266056975 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.20456910068558 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.43113196676288 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15841178211661 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14691445269603 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.25529330620892 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11188903201772 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.65781277569622 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -19.0437159902625 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86770492450619 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.51907865678674 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.54948127152145 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.46042911629418 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51277039839601 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -38.6650800001605 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.1808707720428 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.9583778254832 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -138.895770280789 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.5912463825116 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -128.997164978119 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.11939199173331 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.28386158548742 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.485469877838102 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.76760150892802 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.21986654333308 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.365761083286596 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.18221679520318 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64026973696488 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.25865272021015 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.19921492153717 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.42342269533292 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15575840471515 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14816192561895 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.25660385037998 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11239650959370 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.68079065549294 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -18.0224535267616 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.91817543376295 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -1054.40966295411 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.95529830623123 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.96077921380963 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.58548104965979 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.67686593749977 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.58064326572123 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.48648959034130 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51875675425105 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -40.4079658785953 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.1536523627099 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.8325355896394 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -138.391159397467 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.6531603106906 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -128.278523022528 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.11184273485903 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.29826953480144 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.485676578720292 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.76533391504330 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.21521212293371 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364075562260112 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.17640892748630 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63748903789085 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.24991047385185 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.19462979977834 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.41649908058154 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15332465242688 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14882445204918 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.25717399522605 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11242211080603 at nshe,nfasti = 41 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.70163299086623 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -17.5660032775264 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86558532890494 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.65184491037225 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.59958314601421 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.53109443114784 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.52709008772804 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -41.2004682993861 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -14.1130061058466 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -34.7004190778387 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -137.829770634557 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -31.5327458082133 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -126.029446860121 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.10623655016363 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.31384682596300 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.485724304205188 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.76532437682418 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.21204803711349 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362724127898574 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.17218887156035 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63542878042038 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.24239965657196 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.19069393817416 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.41027669904273 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.15111722533882 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.14910738963209 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.25727106957057 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = 2.11214977294564 at nshe,nfasti = 41 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 20559 TA= 4.19500E+01 CPU TIME= 7.74245E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.80566555555566 %check_save_state: izleft hours = 70.1150000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.1950000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.160E+03 MB. --> plasma_hash("gframe"): TA= 4.195000E+01 NSTEP= 20559 Hash code: 18972448 ->PRGCHK: bdy curvature ratio at t= 4.1975E+01 seconds is: 1.0777E-01 % MHDEQ: TG1= 41.950000 ; TG2= 41.975000 ; DTG= 2.500E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7970E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0777E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.950000 TO TG2= 41.975000 @ NSTEP 20559 GFRAME TG2 MOMENTS CHECKSUM: 7.9406285654515D+04 --> plasma_hash("gframe"): TA= 4.197500E+01 NSTEP= 20809 Hash code: 62794466 ->PRGCHK: bdy curvature ratio at t= 4.2000E+01 seconds is: 1.0772E-01 % MHDEQ: TG1= 41.975000 ; TG2= 42.000000 ; DTG= 2.500E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3370E-03 SECONDS DATA R*BT AT EDGE: 1.8063E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0772E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 41.975000 TO TG2= 42.000000 @ NSTEP 20809 GFRAME TG2 MOMENTS CHECKSUM: 7.9411754891011D+04 % SZOOM - TIMESTEP ZOOM OUT AT T= 4.2000E+01 % --> DTMAXT RESET FROM 1.0000E-04 TO 2.0000E-03 % --> DTMAXB RESET FROM 1.0000E-04 TO 2.0000E-03 % --> DTCONM RESET FROM 5.0000E-04 TO 5.0000E-03 % --> DT_SOURCES RESET FROM 5.0000E-02 TO 1.0000E+00 (includes DTBEAM) % --> DTMAXG RESET FROM 5.0000E-02 TO 1.0000E+00 % --> SEDIT RESET FROM 5.0000E-02 TO 5.0000E-01 % --> STEDIT RESET FROM 2.0000E-02 TO 5.0000E-01 % --> NPTCLS RESET FROM 64000 TO 16000 %MFRCHK - LABEL "BALE0_SGF", # 5= 4.18847E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 5= 2.09527E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 5= 2.09319E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.682E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.806E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.78909399999975 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8753E+00 8.4425E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.3 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.27180771823767 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14172709896578 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.34107264626872 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.48661516766538 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.02353128099864 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.47536636163985 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.32700638538652 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01389241924253 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.81030671238100 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.82799398655595 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.07688566454175 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.30393429482811 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.03305130424883 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.44145062846320 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.488321295062001 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.51438254867851 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28796938149541 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.7748714926970 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -29.6087376287676 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -96.7074007563566 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -455.440563840714 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.34443171248066 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.19764916228248 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.04095757448681 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 5.77075169863077 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.323485744401490 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 4.89391898473464 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.49523117492228 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.453133836234134 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.37727624043405 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25603597840616 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.457380225587656 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.20899281529284 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.04987038488999 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.16087071452235 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18670356904687 at nshe,nfasti = 40 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13366 %fp_imp warning: RF renorm adjust = -18.5038647977993 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.2993497413315 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.79269739863018 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.80816755339325 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.43014996534172 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.72209978500275 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.57086397171791 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.8792097715356 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -36.6496056151436 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -127.789043973265 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -709.329151418991 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -72.8737202403175 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.21632991053740 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.29605038980956 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.343154848058829 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.15957218023704 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61449676955812 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.466820054527260 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59411302695454 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.32385691731710 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.473439710157887 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.14611650780841 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.00297439371848 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.13634878772015 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.20400236861830 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -33.7634624124970 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.0243895672437 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.15558081234082 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67277993325330 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.27008570730509 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53584819288552 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.19123485748592 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.5001985536700 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -38.5955829559479 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -138.549627314207 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -825.617763502402 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -182.818380605756 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.08685804032119 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34447720060488 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.339023258644037 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.20614010127720 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63368857823606 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.477852158924751 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.66098282192563 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.34782067942185 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.483942383666366 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12990055466117 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12353368374882 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.20244719592162 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -39.6673468355031 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.7015582164912 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.97506714952040 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63498455167928 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.12829624702033 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.42049863475076 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.94392770170036 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.4960323945902 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -40.3526596226581 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -148.759534883147 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -955.078883975878 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -254.353849585719 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.06692971432538 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.33421003311102 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.339741892500707 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.22714527879065 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64145637959542 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.484639857229387 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.68667156929235 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35687910573194 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.490892854521693 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12172438195351 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11924135736589 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.20101966093766 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -41.6835564390156 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.5445897511375 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.88082646140624 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.60822521301749 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.00433830987544 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.33265384815658 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.76666183598888 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.5546171044636 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -41.8092132979609 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -157.674876818388 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1087.46233208392 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -338.083829767933 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.04899220142180 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32655514530632 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00065922060156 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.338874009771053 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23565043493519 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64398270664082 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.489626831601404 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69825048378125 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36081280419971 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.496121881947226 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11895775207087 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11722885407683 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19994868079114 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -42.5091326504541 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.4359241530353 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.81350869826667 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.58430117600550 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.89284022810720 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.25749151701699 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.61089159762051 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6015857307937 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -42.9733299559469 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -165.189590008162 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1217.13810529039 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -453.558218567826 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.03534404169660 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31335294985139 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00640693034259 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.340920476007851 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23751565702513 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64391186864236 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.493422615115816 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.70353794559837 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36238552453959 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11868642892888 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11602579275182 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19918071153934 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -42.6908639885307 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.3557624868045 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.76152874616452 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.56258110126668 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.79393329633741 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.19223461919872 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.47046629632058 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6274544994170 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -43.8936427922979 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -171.438477225815 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1341.11134991093 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -638.135213602616 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.01542856119389 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30399508957632 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01367997453336 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.342818860544446 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23494868195055 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.64206393281852 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.496579326517065 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.70542586847026 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36267410727172 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11950089768623 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11525447642348 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19868178205135 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -42.6519902575779 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.2891092631300 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.71749472291764 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.54236481657809 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.70763528084667 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.13591984879724 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.34942112723950 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.468181769096278 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6365145841937 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -44.6098002032850 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -176.554310661141 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1456.69177783843 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -893.198774314721 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.99696582927839 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.29483042236514 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02045233528106 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.344411858617904 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.23050867607845 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63952688195161 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.499199383493018 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.70333373612250 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36160854317892 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12051072386537 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11478065992583 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19841263276700 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -42.8475295033058 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.2283076466784 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.67574907014529 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.52149647735502 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.63898432059398 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.09640661549471 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.29752701540612 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.434377948694708 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6458417413533 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -45.1401447141273 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -180.572334652771 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1560.12684813627 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1063.52288276385 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.98275083596624 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.28610165267475 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02660149825040 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.345732808980133 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.22530273347343 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63675146926272 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69983351605805 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.36001714800600 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12150583781554 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11452856884604 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19833010549195 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -43.1055487856956 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.1701739138286 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.63437438102410 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.49952517771360 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.58128018916143 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.06939661102191 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.28890087051488 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.420304953283305 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6612642682259 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -45.5440601733370 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -183.840118091394 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1655.59634703428 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1097.19950555079 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.97245039732930 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27855001279402 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.03204021298184 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.346828855892547 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.21928252545074 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63382958224876 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69567080941261 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35811436026765 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12234497647023 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.00148033680439 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11443644880033 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19838982479375 at nshe,nfasti = 40 5 %fp_imp warning: RF renorm adjust = -43.1680880512296 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.1187452927306 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.59654102378470 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.47793872880433 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.53246856056409 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.04788656234628 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.28143076154991 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.406610712342034 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6738664616803 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -45.8750411493460 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -186.667424290004 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1747.74334598008 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1107.98926225806 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.96400128213843 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27190627153411 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.03689494686270 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347754977841869 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.21299565150988 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.63091852987333 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.69117726019605 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.35608846702490 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12301470738117 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.00300523863711 at nshe,nfasti = 26 5 %fp_imp warning: RF renorm adjust = 2.11446659836012 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19855715640148 at nshe,nfasti = 40 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.682E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.806E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.52761845321383 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -54.3849582858665 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 10.7799300816977 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.39059853726328 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.39602060726579 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.87080984291919 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.71526615528725 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.41358947820985 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.6056462150197 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -53.8975253599011 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -228.000112081374 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2868.11971212914 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.18018309153807 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.00306006550311 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 8.98138541597395 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.57930652591213 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.19099237578383 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.359143652761515 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14055615548795 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59003958287149 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.480884968496710 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.60081488184428 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30655171872748 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.481758291914098 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.08531142762059 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12850106192322 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18823253571245 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -14.5993199170294 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.43017897851179 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -29.6083268698608 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.4586154446472 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.72697259139620 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.49630088599932 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.96145195544969 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.03728343661972 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.30760127373496 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.6731223757971 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.1853687767403 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -281.493177690068 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -16086.6069440658 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -286.608450281665 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.67471457573774 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.83960032513218 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.26710247401061 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.353533526838968 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12101358369418 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58808982552505 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.478702810424384 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57845248870447 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30221225540040 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.480806287790176 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.08970193445256 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12794845767481 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18732182920898 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.3827002698531 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.22149326938851 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -33.8418247268156 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.2175984234182 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.60535950568318 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.45429914119688 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.94860716597296 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10163352600436 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.08729333817877 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11867152379964 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.1800031400476 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -57.8388936322568 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -264.777172982972 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8145.58747885376 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.52033295449405 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.56425457283859 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.84653434394431 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27124172746001 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.352632876201603 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12288602178565 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58972067432153 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.479251320258011 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57563137378744 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30186503778861 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.481359430788095 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.09128580931542 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12803664450252 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18744566247569 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.0910856109242 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.19236190531124 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -32.5793832315857 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.1943727950119 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.58049474054236 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.42855112869471 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.96874334605741 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.23167655665959 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.84444313508239 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.25695026272407 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.7143172871822 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.5326902354241 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -301.859652538150 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -142.161745749753 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.99937969398305 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.01825141711223 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32126470230359 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351116112434371 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13907937085299 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59844395024871 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.480993049470571 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58197216183989 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30560294286166 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.482886956594765 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.09354275224327 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12825068848364 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18769965219984 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00597605851541 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.3412259018623 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16986305823172 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -32.7303707562985 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.0993142746463 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.52822344131649 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.40527152246252 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.93892121396677 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.21144209408950 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.80425495796604 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.24587822476464 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.3565455199259 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -50.7019129052301 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -217.998734568964 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2920.67451451097 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.56617925946328 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.76250652529074 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.95763279354222 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30687361347051 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.350275700182940 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14165473347387 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59867653949533 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.482682583572943 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58421074135467 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30632182793128 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.484428816174118 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.09539745441574 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12853195867435 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18803166153606 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00764766694891 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.2102395210336 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.15689417664549 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -30.5154405873715 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.1296390197602 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.53100021763961 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.38869836056861 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.97249050473474 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.32791489484395 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.32316517354967 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.3753086158960 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.8495419482110 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -302.151036505487 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -127.191050479226 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.09299230602538 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34096044302889 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.349174434687694 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.15392173030371 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60526922671884 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.484656124233660 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59001129209978 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30948958201119 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.486257933152287 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.09744683971829 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12885671551484 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18840875575391 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00402879870421 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.0585902892795 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.13801615772796 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -30.4440618813843 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.0513553896324 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.48888614941178 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.37012830167989 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.93367351771009 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.28360174777111 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28894539343591 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.4244660072537 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -51.8206034627099 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -229.762098781582 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -4030.94956709506 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.59597946479517 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.87637070076262 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.01267558202912 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31840765777431 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.348441906693745 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.15309546560250 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60381099909476 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.486301691680651 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59074543936759 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30942211891396 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.487851207334549 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.09899016799785 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12921039287353 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18881205615796 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -22.9308588512701 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.12612672056126 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.5446445090767 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.0838045634315 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.49438808711011 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.35616748077347 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.95916278453251 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.38452274228186 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.35369867886688 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.6169957081930 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.2453697866179 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -333.067753221961 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -119.414780483153 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13619646930063 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34670103362524 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347462576358562 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16259753961494 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60908977556545 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.488143278342642 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59499865100507 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31185039767613 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.489609980008712 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10070591850598 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12958231376773 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18922943223652 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -22.7922222186790 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.10774531928601 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.5939590739079 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.0036484429549 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.45277090409675 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33931544381219 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.91373220870581 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.32697139323072 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.31139541123901 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.6167786921233 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -53.6183846105660 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -247.671772114201 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7618.73652152372 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.61492270618036 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 9.96008062679604 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.04713876513547 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32062353297646 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.346817022139626 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.15966256383225 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60664445190421 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.489608735732298 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59437558873151 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31115562462508 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.491083746152865 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10192105122411 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12996402309560 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18965272841278 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -21.8236375581737 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.09592351851042 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -27.0245393408118 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.0322636579685 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.45734239696823 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.32654730781463 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.93526022765210 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.42048917008390 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.37096138784958 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.9167191597742 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.0514662177915 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -372.908851454460 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -114.793999208527 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.16505017324529 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34621450903196 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.345919966196741 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16747300649818 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61114854812115 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.491205000330264 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59746546693813 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31305293294167 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.492707755140691 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10332381455258 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13034832057379 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19007585246311 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -21.7597528060565 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.07757828977117 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -27.1860778377599 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 10.9491339091179 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.41498815762236 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31059718952564 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.88664844663417 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.35575764772082 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.32553044460469 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -12.8192241083870 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -55.5004170503064 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -267.831234138841 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -51389.2208412326 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.62778077393384 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.07125541560147 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31875828895217 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.345340146667710 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16316320360504 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60809441035350 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.492474481350877 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59587357612566 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31191724341506 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.494036712512405 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10424422206356 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13073022664642 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19049450205003 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -20.9149537766470 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.06593337514244 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -25.8464823021459 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 10.9749620259255 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.41886991073890 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29865211223252 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.90615266556890 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.44531305178138 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.38226629817299 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.2181391596100 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -68.9561160310494 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -420.422581425412 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -111.682720232005 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18611898549592 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.34322445190214 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.344496152838010 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16988004064298 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61211515921519 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.493891798453877 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59814147844226 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31344214523108 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.495508586240835 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10537655587493 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13110554524758 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19090500506522 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -20.9116461044272 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04770908507696 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -26.0882844986141 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 10.8901256573402 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.37657721425135 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.28341160779073 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.85592534258797 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.37610349974373 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.33501417185526 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.0175177960673 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -57.3929161098624 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -289.959386516796 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.63632433709660 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.08946032521413 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.31509371941570 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00035427448883 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.344164121211596 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.16473620492295 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60869201933629 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.495000669585863 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59585766390730 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31199410258632 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.496687331126400 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10605094520973 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13147156487250 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19130520714203 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -20.2022989074317 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.03574899141429 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -24.9925632672759 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 10.9056720077107 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.37654556244883 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.27153093335913 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.85951093335579 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.44251979071179 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.37009509868151 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.1969326894214 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.1453560650777 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -311.649423782890 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -111.413141594104 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20296564339341 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.33953597567531 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00374138571936 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.345108537374623 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.17070589847587 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61226162362894 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.496217544311162 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.59745618863045 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31315893963412 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 0.497984724140217 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10695826849612 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.13182612348790 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19169329443010 at nshe,nfasti = 40 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.682E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.806E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 3.934532150553587E-002 Pqlo = -2.616285019436119E-004 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -49.6976251053678 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9018982892376 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.72487796283337 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.61704297891575 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.5578298506370 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.7683501883484 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.43980694466352 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67185854028523 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.58736921355829 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06445594478682 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.77868303606775 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.89717776840953 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.0915984223900 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -57.8799241553390 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -290.650346226420 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64444780219115 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.09178238156507 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32452832533312 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351737069919343 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.17397823557213 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.61379083780000 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.498080951885287 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58765522296152 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31024996111073 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10706342081969 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12289713367238 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18821565245745 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.4833875967152 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.14177760602699 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.67753406100420 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.0834447043201 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.4954946340416 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.30398209479728 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.61722507774416 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.64928148258089 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.05589314204759 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.97866668869564 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.49907983074094 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.08926570115728 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.5834018714521 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.4776352852088 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -333.400494895673 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -81.4049715410075 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18922415104304 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.32010206630118 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347887882453970 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.15950265759274 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60701331204226 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.498226412568304 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58900369966057 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.31093023887417 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11416271075241 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12251436426048 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18723816867149 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.6819229766162 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.10956814972354 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.66863567124278 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.4784879936567 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.3515231117841 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.23651692209319 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.60052543018129 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.61875632707536 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04937799259475 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.92910933686098 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.39680780977497 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.07785164868645 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.1688258972337 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.8962280935445 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -305.990180044666 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64234146082966 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.09434257617830 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.28208100902746 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.348044247780586 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14733380235938 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60079989492051 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.498455321370662 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58294993575893 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30788514020216 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11530482022563 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12264631096371 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18735919968642 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.6933286028710 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.10785872633124 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.66020217563394 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.9769144234655 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.3517449757118 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.23249603369263 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.58986509106403 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.63140222464684 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.03770149137974 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.02105706682582 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.70605539067759 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12113560391339 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.7185826644777 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.9622675583789 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -356.828864392317 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.8514994621657 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.21824900759561 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30690389551973 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00108881417079 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347734971770077 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14998283348769 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60308324998989 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.499057738124636 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.58199943026708 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30803420160176 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11631859307592 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12285972519618 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18758396360522 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.9504093636226 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.05710241760831 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.64666041809794 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.1393912879531 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.2465052219142 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.18291255809956 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.57669485080514 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.59646029306602 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.03039774168816 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.95848961213293 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.51579039795789 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09108014332963 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.3254184324599 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.4918632287911 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -328.141586345505 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64410040675250 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10963885686076 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27653319373917 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00182985037878 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.347756795526939 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14138526655871 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59835012931700 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 0.499599804229681 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57670728777324 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30538865457318 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11657560115950 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12309239376199 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18785631819521 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.9173095575040 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.05870445908074 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.63784974950074 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6210767500916 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.2601878306957 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.18451531420378 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.56698221712119 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.60694495436781 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.01886708463207 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.04471159060288 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.80324522227525 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12923654666447 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.8989357221130 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.8705744346484 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -388.291579210483 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.2164407765443 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.23047027522471 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30266027873406 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00471513872483 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.348453254240130 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14588226462079 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60139157197601 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57625852650524 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30577936667712 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11702919748148 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12333052535421 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18814595639622 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1446447755620 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.01098518435357 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.62440959063904 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.7828678707203 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.1620571547409 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.13769952620354 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.55428502190756 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.56962370112660 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.01150149032531 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.97683643236007 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.59693367486636 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09599389761802 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.5010249028068 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.3010701374966 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -355.121645688485 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64549384353630 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11759573550574 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27486028336514 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00629319467881 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.348620090144208 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13807332779659 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59698185478903 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57141675003716 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30333455766119 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11699287544365 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12357053137290 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18843964052827 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.1629497516310 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.01395603059248 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.61582012937460 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.2905333324920 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.1791715828752 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.14062861492657 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.54499096699296 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.57842560160297 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00017160977044 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.05988733496321 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.87866402020600 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13276251511287 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.0887241788061 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.9297442502048 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -426.039200679136 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.0106033952553 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.23669847858159 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30181580485871 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.00936591324245 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.349353858142674 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14283403569791 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60017463834796 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.57128809342782 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30385953083627 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11726666281093 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12381042563905 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18873113758205 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.3976216536742 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.96733461985051 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.60263617229110 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.4612696968652 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.0842808220948 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.09503694839181 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.53261783138725 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.53900775799237 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.98875223200033 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.66347036824227 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09776784802613 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.6798995340333 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.1980539939429 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -386.344140414268 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64609222005144 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12284658934178 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27458836713426 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01094732393714 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.349523071113131 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13521002841285 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59587192979612 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56671209115879 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30151946565924 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11711839153316 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12404917559348 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18901799333427 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.4954778593873 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.97012124006952 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.59421500925892 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.9969937896163 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.1028249265221 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.09845661696096 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.52361952830483 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.54863814549333 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.06991825490059 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.94099715001268 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13391064657017 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.2801463034530 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -69.0736129184499 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -470.628656607277 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.0481358945298 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.24111733385892 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30165278968833 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01396772649226 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.350242882080056 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14016036688147 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59914176697658 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56676837119814 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30211376310395 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11732532240992 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12428533785700 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18929858038573 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.7421112194524 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.92380749698980 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.58131120687537 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.1725991551309 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.0105967564923 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.05384419271806 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.51155535827119 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.51186661349874 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.99684481450538 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.71968922734293 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09828291985339 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -13.8589243867988 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -66.1561243015798 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -422.357334629875 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64592645757606 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12660951962551 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27448864371879 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01544317651981 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.350390187266048 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13270711438055 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59490083177598 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56233889142391 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29982564775643 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11713183585537 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12451810818772 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18957251832840 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -23.9112625418315 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.92632729749318 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.57312597922635 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.7332632609496 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.0301882514956 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.05765333257101 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.50287012786575 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.52148322656099 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.07660014352842 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.99462614101722 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13378985575171 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.4711638832973 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -71.2865538921134 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -523.651466723058 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.2857370701394 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.24424503186879 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30145366721999 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01835120298990 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351081373318002 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13773050194205 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59819333542718 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.56248559628671 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.30044814265387 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11730476267411 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12474624189760 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18983907602106 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.1634207417935 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.88040282441185 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.56056504853315 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.9145910563741 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.9399363939603 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.01385588873356 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.49113915889529 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.48383477583631 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.00189999402015 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.76853743071717 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09770328705069 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.0373106305361 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -68.1693697627237 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -464.198705123551 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64510240206551 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12931989304363 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27426453543023 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.01968473695041 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351200691506356 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13035323099063 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59397449437247 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55812850913590 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29818057495332 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11708270468150 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12496920965947 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19009828887918 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -23.4107389778626 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.88255047117796 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.55259305793860 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.5004203459628 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.9600885015540 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.01785583060506 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.48272114287957 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.49288774647455 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.08050773352658 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13284417357222 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.6614250039789 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -73.5688634973189 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -587.686960303709 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.6926710131007 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.24643685383430 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30108729557563 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02245873536011 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351860779916088 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13538463444162 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59726327468833 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55830375715633 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29880646285416 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11722916360595 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12518609085956 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19034971921298 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -23.6631056492061 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.83700099345322 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.54036505699037 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.6854694362207 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.8716844317147 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.97482420838983 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.47128613543003 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.45474080032036 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.00457464583263 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.81146331896272 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09667889674333 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.2150982259070 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -70.2402799078113 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -513.417592200408 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64372556672905 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13114539402277 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27386024484824 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02352871691181 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.351945787228305 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12803684170381 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59304868463469 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55398368298491 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29654462367631 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11698324530763 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12539672940117 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19059357160710 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -22.9584245500679 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.83939799426533 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.53273970555839 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.2898983461768 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.8926438515308 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.97918445225664 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.46318510063264 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.46356782759045 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.08222538896027 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13156447167121 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.8510337760708 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -75.9246676877253 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -666.594574059123 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -80.2518261582922 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.24791437800197 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30051104249757 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02620342118355 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.352571234656831 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13304339613121 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59632078314694 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55416946443939 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29716535753298 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11710658697467 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12560053159105 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19082949474050 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -23.2363109864266 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.79378849953095 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.52077233278794 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.4830615895876 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.8055237267962 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.93665711645080 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.45199668094544 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.42515693295095 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.00532262559624 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.84771331649190 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.09529520120627 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -14.3924361901678 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -72.3727416680325 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -572.190274676310 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.64190756552416 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13219099338260 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.27325551356038 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02705060413391 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.352626752426089 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.12570873469399 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59210499608000 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.54987080042276 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29490299427024 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11683867512023 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12579759853128 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19105785158281 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -22.5575338324393 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.79622001231982 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.51349307235143 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -17.1015852097272 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 11.8272212830642 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.94135065896758 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.44421636609124 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.43383544954721 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.08206324094539 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12989984091885 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.0403628966281 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -78.3609766768949 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -766.371758686864 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -80.9005368255377 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.24887017025987 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.29974667328313 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02960673672596 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.353215573044096 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.13067914701639 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59535640528651 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.55005903833442 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29551537235866 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11694093168737 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.12598758403565 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19127845942615 at nshe,nfasti = 40 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.682E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.806E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -28.0438652564558 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9364983773630 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.45550865044159 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.47874336759099 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -13.4408713559205 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.2401911827614 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.20301198914054 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.93859380140356 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.00902318532834 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11129932550573 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.69568535064752 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.30154800440954 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.3393815144735 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -80.1064116945581 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -729.053578557188 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -429.926342038299 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.27455112011323 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.30323546404119 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04093268494048 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.359726828402932 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.14538464617384 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.60366077550684 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.54462636395762 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.29476068062356 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12017936215041 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11961646484108 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19039255526935 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -28.2040938749013 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9396587288305 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.41493308936599 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.46461821603168 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.1974743038375 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.6341824504858 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.93919752661155 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.85753696379329 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.06524113290744 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11431139492978 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.76126168709676 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28871241640140 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.3112933525435 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -79.7951824326733 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -723.809065007491 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12398.4318735758 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.16371691199076 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24938222954615 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04290061800798 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358319652384649 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.11856001438911 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58946943769422 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.53415265992896 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28958657389457 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12434098971054 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11930428953162 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18942016617455 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -28.1396473068237 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.8297985400761 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.38092036190105 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.45631252152749 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.3318297582525 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.5380853343842 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.89280955313059 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.84775947536645 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.07273544676669 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11496555286899 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.75435452051228 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27894554068537 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.3626699244304 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -80.0535156084653 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -733.078750851671 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.76163706503122 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12938838130470 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22570964024048 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04030854128810 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357244319893339 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.10321633347848 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58237276529281 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.52297756814562 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28441238571411 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12334131610807 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11930767303270 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18938711083962 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.0270066626039 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9058610842705 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.38956652212956 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.45179037242087 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.0290388973915 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.5806425379281 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.90900535885858 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.84234407594396 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -2639.86208992491 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.58021432500063 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.79293375151648 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.76495819477287 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.07971131856836 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10502729200683 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.86679402765811 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.32726294399166 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.2503684879486 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -88.7402518403053 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1170.26079038005 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.0406058731916 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.29327263920614 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.25956031823917 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04147106844594 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357418288185842 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.10777476756783 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58570266109398 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.52091233861769 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28416048508863 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12316999466916 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11934096019555 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18940450365416 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -29.0751079233732 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9084881427944 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.24997581436208 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.41117753757658 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.6871037668216 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.2796791519765 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.74649291313954 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.76740968137380 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.93169125788736 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06716745825168 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.76715999428301 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.29174141617726 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.6657233460137 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -83.8578822731718 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -908.671871790037 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -685.713828318629 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18694998702924 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.23530682054223 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04113236714496 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357257994790864 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.10076586401914 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58175298323483 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.51598701447244 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.28167227067630 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12277334676497 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11936417175312 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18942893331652 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -29.5709421232104 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.6546780849206 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.22169913040587 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40820800136999 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.6367383981238 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.3086142022628 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.76319991811846 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78250068337730 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.94967466274188 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07125436103963 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.73940919171858 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27631225935058 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.6221861595380 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -83.3676505754080 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -886.296764242001 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.75681302792547 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13709091977495 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.21464833887572 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.03930896745157 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.356673154917695 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.09073518334475 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57699242060824 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.50875082265729 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27822562359883 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12161712712994 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11937637995554 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18944532325177 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.8875697648588 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.7646769014604 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.25854266821575 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.41079251735343 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.1414843097363 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.4112964006821 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.80965404853992 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.79109813062719 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.96896104559789 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06662049669797 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.84539509009621 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.32151391315263 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.5280875689102 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -92.6937440292967 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1595.40147009973 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.6466133773103 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.29477912191907 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.25036182788984 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04114025558330 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357105261061193 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.09782826237985 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.58141362039888 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.50891794544261 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27894191298544 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12139079067345 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11938278791450 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945224039010 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -28.1319423809579 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.6505149651991 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.23593369091102 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40547356136065 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.2530896496856 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.3309310079064 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.77264362756460 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78630772711583 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.92061642315032 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06049012320727 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.74623820841051 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28203350212448 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.9349317994573 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -87.3950479220477 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1143.27455518941 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -868.975962393555 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18606646056725 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22776049566171 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04127357684544 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357092406560598 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.09241072668107 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57813874306493 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.50543893454154 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27708048853803 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12103143286937 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11938913129240 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945369596615 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.9851771751277 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.5259060536819 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.21905779152433 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40147313997734 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.2663418794607 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.2797084533237 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.74884626246986 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78427008656124 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.91786090494538 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06064295582712 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.72063791000924 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26878683511669 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.8754112068888 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -86.7127899431740 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1098.09722301086 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.74625133087711 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13541393029448 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.20839378363501 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.03975747427884 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.356600388012734 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08352461980617 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57386291403316 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49924571600070 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27408636753079 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11995840074095 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11939678200848 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945232339655 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.8106540768555 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.6006749028926 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.23744184481799 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39963578988233 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.9396349440204 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.3378720668179 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.77290377503644 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78208085699674 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.92902084098041 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.05236409504808 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.82836103991005 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.31371818680422 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.8011058830942 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -96.7106841169111 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2407.10227299799 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.5310284051354 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.29306077412628 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24495554965167 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04183700892675 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357094538673217 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.09142239508869 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57862700020422 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.50016671386686 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27513145494442 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11982793223043 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11940628949899 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18944993708067 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.2806137618796 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4793664877235 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.20284759725451 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39142451306592 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.1129980041262 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.2431665670374 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.72721379524716 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.77186702845642 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.87465813299968 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04378418883015 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.73099003176647 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27477578670456 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.1868346198925 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -90.9467533351371 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1506.30511304701 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1163.20399409155 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18420607593880 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22318932290055 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04214645189813 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357128927382361 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08668003527861 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57564012292895 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49729536668454 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27353641130665 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11956308122445 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11941911246120 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18944907787008 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -27.3249131134222 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3553567773218 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.17835587998475 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38560120291405 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.1579408631815 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.1867440103763 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.69954314457021 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.76689855750704 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.86759481917646 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04239582001011 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.70566624447741 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26158480619155 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.1251117980054 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -90.2085867983019 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1428.52838001867 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.73663237378684 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13366183090223 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.20443842683925 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04075551133965 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.356670216049788 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07832663897806 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57159318594086 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49160222834569 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27076156416080 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11857870735294 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11943393450427 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945003409330 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.2956205977727 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4333523889815 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.19222532228665 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38274085431208 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.8490519372664 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.2429227591691 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.72178564937341 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.76316998212227 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.87643316699589 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.03345945040930 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.81260213252337 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.30618783844976 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.0768968420318 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -101.011878054158 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -4809.16975872986 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.4741715941710 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.29146731225134 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24131906534737 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04292683957920 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357186652292932 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08658812864612 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57651611451960 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49290630208159 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27197540456579 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11852801570823 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11944992288550 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945273033919 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.8441401664336 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3186365144803 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.15518424396083 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37391978030039 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.0312708129219 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.1490637963234 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.67581940077558 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.75204937795033 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.82039408039610 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.02435362302039 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.71517905623195 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26722011594338 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.4432597159910 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -94.7502110991661 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2192.29297408572 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1774.18468149875 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18245230005503 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.21995300521260 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04329137353901 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357239339028839 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08218132574425 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57367429943068 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.49036984301877 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27052731425035 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11833422376004 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11946795918017 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18945819497620 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.9287433631856 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2017310719707 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.12937430561788 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36779089094569 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.0806367043118 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.0938473314177 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.64828815671954 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.74654856418681 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.81153883962718 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.02252592317337 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.68954981234658 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.25392782467688 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.3792279552715 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -93.9478948407131 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2029.88178640253 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.72771858173815 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13196680649831 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.20148540876546 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04193168076457 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.356793963641612 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07409536990246 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56974302591941 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48496579096913 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26787489625465 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11741361381133 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11948663321592 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18946583186452 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.9671792757776 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2847424332023 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.14232101789538 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36479225419346 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.7782444291475 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.1504300662929 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.67049778159064 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.74255820692485 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.81958308938037 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.01359726407188 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.79542145978112 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.29822417849111 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.3569512214452 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -105.632876530961 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -227868.192667628 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.4863849296135 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.28979689226398 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.23843416489806 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04412035443618 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357315319500093 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08251799343951 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57473672610940 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48648543528603 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26918548798715 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11741792268214 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11950528084519 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18947506623114 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.5414307017435 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.1758241477169 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.10499307667222 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35591344004019 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.9623160979119 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.0585790803495 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.62526166109733 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.73133177416912 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.76307221900936 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00437201056321 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.69789811409444 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.25930117866201 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.7026652521369 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -98.8009154947102 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3952.25401019669 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3812.22850210494 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18059344117670 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.21727724848282 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04447860623017 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357370186727102 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07828544602627 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57196975741758 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48414926221305 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26782379419952 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11727266408104 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11952496913827 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18948676516940 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.6437978515294 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.0662647565621 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.07943782469613 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34984761172481 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -15.0140345635612 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.0050842188961 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.59840823976269 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.72578213428932 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.75376508452601 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00246342042870 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.67199492344508 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.24579165815461 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.6354095539377 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -97.9141264873702 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3442.94098336314 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.71927515576293 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13017970744015 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.19895714558447 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04308492216495 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.356923812618985 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07034861365101 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56810251485084 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47892622703828 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26522479638830 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11639576645011 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11954449944264 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18950018110327 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.7266109758286 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.1524770342243 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.09213168184467 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34689958005033 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.7164636669009 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.0621582471459 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.62081277132260 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.72182104430985 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.76195342418131 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.77694852649512 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28988343156654 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6388130583928 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -110.561664348910 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -543.384403578507 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.5216757719926 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.28800455215266 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.23586934099218 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04526563031045 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357443534256842 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07884210603688 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57312661110296 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48059435102174 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26660658068231 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11643831139907 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11956334375121 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18951458840309 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.3260516019764 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.0464258479760 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.05419719534456 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33806219910021 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.9011154093370 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.9707596838421 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.57567597789128 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.71058232923089 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.70237944335765 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.66807117697033 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.24196601267208 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -15.9864993525701 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -92.2238124873923 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1965.17013475189 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.76697465232789 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.17983738268316 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.21537795036956 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04541412522225 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.357458154437831 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07482279830432 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57037984810059 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47840220416065 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26526435395336 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11633815847534 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11958271445748 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18953079227282 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6615106641673 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.1117119439200 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.05578433148200 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33279307873161 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.6622120411180 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.0097500649385 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.58834339732784 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.70364414430175 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.71306592061421 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.76477011588933 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28700559426643 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.5473865957587 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -110.895658078104 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -570.408103598719 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.6892385881754 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.30742280276225 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24472406897959 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04777181956961 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358042155793517 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08178363190001 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57461633282363 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48055671566977 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26678760804615 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11669662436599 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11960348415035 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18954941636813 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.3128094978323 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.0011490538778 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.01447490598494 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32319554613678 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.8528174736882 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.9159562500854 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.54166622627918 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.69186372295427 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.65931845957358 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.65695598384659 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.23884163780099 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.1063458769692 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -94.4428509228232 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2615.28678615741 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.76910499601844 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18997529025228 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22069223947483 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04775550231491 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358016426092183 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07643143884800 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57123466693116 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47814736590435 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26529852816704 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11666384466542 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11962647328397 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18957131883709 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6855169842779 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.0629568975274 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.01479760533728 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.31774495417016 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.6170696990858 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.9542144994686 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.55397197132243 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.68516375035546 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.67302976136498 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.75306643554098 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.28257651063281 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.7529952151538 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -114.887374975592 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -643.643182060342 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.4127958449521 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31241615079645 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24768721579511 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04996017754615 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358543066879841 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08234271182633 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57497271284579 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47983360955965 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26656526797490 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11698484071884 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11965154197198 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18959640772426 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.3046215262976 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 18.9541383124708 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.97458640130231 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30846640890624 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.8022869914316 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.8624488868030 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.50845172228412 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67404727122013 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.62194960764312 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.64585060902215 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.23506742923015 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.2976844209159 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -97.4813297020256 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -4382.97152130348 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.76729270089938 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19239446248787 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22235521629658 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.04968851596537 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358456642124929 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07629839381096 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57126215077918 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47696143381447 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26485500672356 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11687673509422 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11967858295647 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18962469591131 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6659461965937 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.0162694935110 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.97582241623018 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30337072305046 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.5676273910913 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.9013306262454 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.52130730686203 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66795675766357 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.63708141582223 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.74129063073919 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27781879552251 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.9855241430391 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -119.398616070233 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -738.787133819448 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -64.2022293964624 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31319399120665 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24833191740362 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.05173007670850 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358931209683224 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08167517080804 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57474690121618 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47822831997441 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26592048394858 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11711373074223 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11970690136478 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18965546561666 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.2923483047876 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 18.9067521092373 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.93658377127289 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29442376039210 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.7539395455441 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.8108200366582 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.47664469205973 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.65740997385096 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.58727354030784 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.63432111684332 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.23056678155385 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.4957338846913 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -100.610813108620 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -12531.7473160856 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.76398873207469 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19217584006400 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22244006241650 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.05125260045186 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.358796834375293 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07528302392468 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57087029534612 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47503135043540 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26405808904384 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11692568123344 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11973616092483 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18968838642019 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6232245985957 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 18.9700969299291 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.93898174583502 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28979008188735 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.5199067252535 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 12.8504811431226 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.49009777832071 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.65190327827687 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.60310010603394 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 6.72913321518154 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.27264302037424 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.2140509122056 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -124.037055998504 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -858.674192230994 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -65.0106179669964 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31234831929506 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.24789613192255 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.05314096192893 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.359231127461864 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.08037216564664 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57421835358823 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.47602769751670 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26499682500540 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11709078342595 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11976563445738 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.18972261427442 at nshe,nfasti = 40 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.682E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 2.806E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 8.864667543947723E-002 Pqlo = -4.916694735970387E-005 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -19.8591860059973 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.02096422837922 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.51556466887396 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -12.1862615585729 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 15.4994719150424 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.71392765779705 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16494895322091 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.06420236079221 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.22829880617362 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.13200800424452 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.61039414121183 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.62376601513158 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.9012206467623 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -109.549266726308 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -646.393804937273 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -174.300716807237 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.37451490863074 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.26796814504575 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.09314426869550 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.370358133864702 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.11159885163544 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.59179118160980 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48966960950016 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.27399799746680 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12436617932024 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11609497974598 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19136598187484 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -23.7039050558675 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.70097705749867 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.45322669306790 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -13.8326148291282 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.7243788531973 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.39924679300722 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.06204115402554 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.05513907244746 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.24575026220118 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12947556880670 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.61880922421070 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.57064628834178 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.5716852677159 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -106.054260618300 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -46298.1806119234 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -355.717582857245 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.22969541942389 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.22810466631049 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.09702398924277 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.369445440075653 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.09106777238734 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57968751984071 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.48035517089300 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26884929075279 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12738451216771 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11619905577990 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19059348226540 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.3800748666282 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.62569482613844 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.43724448568832 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.0434796465463 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.5978373851905 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.33905739293726 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.04499644476621 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04809387176948 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.24362957105495 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12819763561586 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.60115638291989 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.56244225009193 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.6539971222833 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -119.655156916486 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -771.872298900578 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -469.765287756745 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.18260326706318 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.20464496648690 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.09408771232550 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.368376763387655 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.07634146409402 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.57274405405741 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.46974327917662 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.26377734391848 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12582865258511 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11621945000733 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19053503102901 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.6300871940762 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9980942626947 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.58568796222859 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.42900955197187 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1156446335724 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.5319680407205 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.30758585405029 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.03802173558108 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04363659136666 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.22270214322512 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12479801371231 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.56284640051261 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.54197647972646 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.8087406030512 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -108.919815619299 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -614.026007837212 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -532.765770024184 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.16115264485462 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18829901534728 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.09051486590393 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.367346935431433 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.06535950894168 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56759361332959 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.46045730442878 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25936529191143 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12404801707479 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11625417463059 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19055141586447 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.7431416353394 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.9242212230814 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.55997373660074 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.42375559749309 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1587397173554 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.4880266161977 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.28632372069159 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.03375434893393 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04059919990877 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.20738650477655 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12232228150592 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.53843408615431 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.53292591610915 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6241188524157 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -106.560657459832 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -129927.098621753 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -605.726871156190 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.14660601786782 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17588144946299 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.08713138512226 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.366435788841617 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.05677093039077 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56361188340202 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.45242158661553 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25558794136610 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12223156049155 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11627764095641 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19059073039763 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.8451905959917 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.8606070291636 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.54014245614077 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.41961846130534 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2009345646960 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.4529956689959 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.26929139574484 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.03032365942964 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.03831291210778 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.20077919619829 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.12147450548144 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.53208151928680 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.53554211308085 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.6984777389969 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -120.257861006567 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -769.914049010760 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -640.911247734114 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13505014138488 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16605205987945 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.08430620834490 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.365683994981000 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.04992261973740 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.56051483273401 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.44557676193599 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.25241892381918 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.12049902416967 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11629101495620 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19063347407022 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.9298884896605 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.7958048073646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.52138430117163 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.41601397832481 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2392524548596 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.4167598220238 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.25185051555795 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02701336583554 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.03552097194987 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.18077326084458 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11799756039996 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.50415199859037 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.52059067117155 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.8409891932150 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -109.447995510156 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -618.032116034871 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -688.361193029842 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13122655701398 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15979722096694 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.08183230735886 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.365016781305186 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.04482469891005 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55810340257862 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.43988386980840 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24973486540170 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11894443448428 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11629870817863 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19067351070420 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -24.9986146649276 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.7423420246416 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.50529196363148 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.41277957204249 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2703383041304 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.3868918716408 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.23694367135468 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02380658325953 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.03276108859599 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.16669224383267 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11509611865736 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.48670975551947 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51453416508771 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6629851205329 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -107.262404235797 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -589.127081801600 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -776.238057720960 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12647675077189 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15431999579381 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07960469472290 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364427398364998 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.04049041160261 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55607757042141 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.43494837905445 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24741548676225 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11754608383156 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11630409739464 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19070950442600 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.0661897995077 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.6910723453315 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.49001568699706 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40965707732229 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2994343209132 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.3590047957873 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.22292303656208 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02056494969274 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02991263823944 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.15314110173558 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11220395128149 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.47145904609781 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.50934538887440 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6247339422372 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -106.877796637528 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -585.366633655398 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -862.643360031416 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12282577586474 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14985337338814 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07765717908719 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363911367653849 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03683583469687 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55437630510253 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.43065419736291 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24539983569281 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11629485618483 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11630907716972 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19074160769136 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.1245870061511 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.6444153173147 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.47584853629815 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40668728475047 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3255484025768 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.3328775304181 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.20965138126325 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.01729768002805 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02695852889748 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.13975851466834 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10921508372593 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.45748180969522 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.50457715022543 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6314502074040 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -107.078332792209 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -589.981570598904 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -957.453219041218 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12005065169794 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14619669101768 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07595553593644 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363458337743488 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03373721757347 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55293423413793 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.42689225699266 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24363373675509 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11517857223870 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11631446502252 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19077029372815 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.2065762771729 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.5983844771993 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.46158977183404 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40364061316624 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3519666094005 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.3073180534921 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.19654997607959 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.01388239993224 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02386375973710 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.12631950804061 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10610278861513 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.44428740249439 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.50006275240696 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6555077905650 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -107.513638217430 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -598.280984704898 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1068.42021830660 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11786467093610 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14315307016862 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07445994403184 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363057994598470 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03107615060361 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55169435057775 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.42356568267588 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24207083269120 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11418222222341 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11632040116229 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19079595187165 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.2524610392343 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.5571524341415 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.44837628092884 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.40073980357549 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3735870428990 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.2832932321797 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.18412897488730 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.01049929214552 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02068914463823 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.11287750691796 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10289118562787 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.43169829981164 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.49574768528898 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.6875534443940 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -108.063238163277 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -608.667779799801 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1202.58253342386 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11607035078718 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14056801768806 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07313550779647 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362701463149933 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02875689243362 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55061207119180 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.42059358635844 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.24067320510566 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11329035891426 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11632670456857 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19081889625323 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.3177647880102 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.5177686931292 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.43534090297791 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39782523122667 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3950878555701 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.2598712552486 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.17191553729661 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.00699771811825 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01741124338135 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.09940002622802 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09959249425683 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.41960975083037 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.49160033289288 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.7239864789349 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -108.679709089788 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -620.525005268055 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1369.17221032582 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11454707971857 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13835705997575 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07196082667794 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362382339454525 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02670529463644 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54965359488774 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41791180200499 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23941103340064 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11248875819974 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11633309896751 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19083941755981 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.3877370217388 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4784771910100 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.42217622244402 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39485651898077 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4155721914920 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.2368460411982 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.15982390841154 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.00342216737449 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01404533501225 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.08591586072323 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09622596919716 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.40794771276025 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.48759625202167 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.7631729648134 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -109.341048663163 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -633.583087386196 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1582.49090303434 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11320960586619 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13641761863567 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07090540741321 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362094088472595 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02486717087982 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54879392389450 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41546828920226 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23826024920960 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11176461279800 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11633925980291 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19085769612922 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.4344379043033 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4434900972686 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.40992496516672 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39202161423103 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4333944419140 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.2148990724840 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.14824729531662 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.99987579966046 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01062583488374 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.07243184243121 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.09280762934345 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.39665798005243 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.48373737204385 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.8042773145039 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -110.035992174529 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -647.725280596680 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1866.22172724290 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11200369717232 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13468857310566 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06994904930177 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361831830596358 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02320057730985 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54801385531050 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41322205767533 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23720188307166 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11110696172017 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11634488517049 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19087386155478 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5000655639960 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4080215762737 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.39732289622872 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38907040779288 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4514784607810 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1931717775725 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.13668687187158 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.99620189238350 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00712544961345 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.05897204422089 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.08934883040258 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.38571620217733 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47998954082931 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.8467657050651 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -110.757136083306 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -662.888204447433 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2262.97130909450 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.11088553036735 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13312441843879 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06907571574359 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361591925558980 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02167222028780 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54729816300388 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41114072472899 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23622092043427 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11050657422334 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11634972228385 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19088801572536 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5573928486130 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3745204140457 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.38506172279475 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38616525988483 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4678424970473 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1720342507350 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.12540578705906 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.99253847020076 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00356461587534 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.04556330930134 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.08586295249668 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.37507207173659 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47639851291073 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.8903318246201 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -111.500381213064 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -679.062961417663 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2858.58235490869 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10982704461911 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13168982055324 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06827213359755 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361370933598740 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02025679050184 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54663525311990 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40919778782556 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23530505869985 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10995544239252 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635358028810 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19090024542747 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6138201512573 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3437113373386 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.37328710613597 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38329394938807 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4836573298539 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1515109338049 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.11440398224224 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.98884959517375 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.03225299482150 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.08236565276239 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.36471691078254 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47289206445808 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.9347119154726 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -112.262065329691 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -696.247791587948 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3853.19845564337 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10881394072966 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13036108691193 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06752834154231 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361166097956235 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.01893532045704 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54601637367475 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40737238859571 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23444458374518 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10944679779717 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635629102856 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19091063173528 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6681884339318 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3129186472853 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.36138344005941 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38040490892740 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4981168229760 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1313815416619 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.10355544068127 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.98514200170997 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.01906249331386 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07887269336422 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.35461678335280 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46944822534150 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.9797314765508 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -113.039853697150 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -714.465307531043 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -5851.10952440879 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10783624648907 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.12912107905425 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06683618672536 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.360975143890678 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.01769271601639 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54543453370464 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40564767321755 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23363162496460 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10897494538642 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635776708834 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19091925215029 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.7218440346105 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2846260632195 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.34988282522894 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37753026112374 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.5113118530932 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1119497289814 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.09303444851385 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.98138797290241 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 7.00600970239153 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07537097228341 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.34484152858518 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46609161296379 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.0252035230340 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -113.831174609217 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -733.736001685042 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -11913.1094578655 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10688563334157 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.12795537574525 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06618851573459 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.360796235535680 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.01651714119028 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54488425775155 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40400996398456 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23285979031105 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10853511825810 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635796409827 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19092618772806 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.7860619350019 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2568184842874 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.33827213571018 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37458111587300 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.5247714904863 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0928087461383 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.08262893827644 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.97756070823912 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.99308697657585 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.07186895594651 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.33533088534761 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46281295106485 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.0710268155198 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -114.634687790173 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -754.107813954494 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.79231353823082 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.10595380194351 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.12685059279801 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06557919073188 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.360627757016830 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.01539797143326 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54436058026503 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40244750674709 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23212354302052 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10812334850166 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635686111061 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19093151770412 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.0705813237170 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.4028673209568 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.35660988654855 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37264906087116 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2343595567769 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1809313110434 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.11957776795293 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.97309054805501 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.99722977972868 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06143504078253 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.47352346072718 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.51788679343017 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.3048504951205 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -132.724523183584 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1412.91228173207 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -55.5094673642004 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.30621707427755 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17480167114035 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06923643161337 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361524328430733 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02950384035997 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55207943857124 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40829046005214 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23554135286091 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10902150427637 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11635645350714 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19093670210611 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.6502574286602 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3377578609897 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.32136489235022 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36415570644068 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4118554209696 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0927242887040 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.07622267490120 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.95883520184634 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.92956870384857 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04886887615941 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.35713664051544 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47915465927240 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.4783301553577 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -122.184686739861 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1022.41136812659 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -460.868453990578 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19512902374098 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16136840361381 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07045258341859 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361935025869748 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02987511937418 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55147453151899 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41009021140614 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23613880684436 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10983253876495 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11636016046286 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19094487349528 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.9291503416347 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2727255307570 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.29352870777874 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35775840240223 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4780141361279 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0429187795069 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.05001373234280 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.95052719985008 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.91060690491966 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04407931068673 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.32329651534415 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46554262779752 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.4195650087480 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -121.357818458629 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -991.606255371162 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3976.22051427627 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.14935748913155 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14837354635685 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06986703644584 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361787260836269 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02549558952429 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54926244925992 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40864022975197 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23528582212606 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10986511452288 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11636796718486 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19095683272451 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.0225822095516 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2330933249624 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.27666156747710 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35364666410515 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4963961201367 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0160255984203 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.03534918410202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.94602250989312 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.90173708598799 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04188760097775 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.30720177413373 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.45763358573377 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.4684742686161 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -121.999727954107 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1006.13424399766 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.80062969707309 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.12765452917830 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.13965231225055 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.06882779601992 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.361500789156332 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02131336148599 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54725532994734 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40607827323213 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23398296278431 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.10948622246811 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11637757784004 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19097114767889 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.3258804226109 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3706314960842 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.29318981947136 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35145877508031 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2094636263925 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.1008585677722 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.07068773081001 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.94231945630148 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.91048867712976 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.03365034750543 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.44048069365949 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.50744634162933 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.7349817556147 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -141.931292823816 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2471.25841006247 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -56.5898294911969 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31521805564762 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18223482679388 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07194056855776 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362251870013392 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03290444769054 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55377343446170 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41055019450401 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23670540201506 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11021425928845 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11638837680323 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19098696279072 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.8195552087301 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3059697866102 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.26084617755472 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34367041231011 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3780410699235 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0158268321498 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.02913392122388 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.92970277187482 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.84899046721683 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.02299692906873 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.32529756053401 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47029917397346 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.8658919687495 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -129.707384453741 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1451.80614703489 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -547.438170661991 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19873180444670 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16567117061404 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07265251734019 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362526361978908 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03153880758129 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55234834129380 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41108970948342 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23669198177526 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11079140218046 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11640185750833 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19100536714006 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.0773898614655 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2418035406743 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.23560366893495 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33799781314460 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4424553831890 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9681634935752 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.00441497280815 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.92280873907079 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.83386997812372 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.01963792025269 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.29138855083457 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.45585870860611 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -18.7889882672841 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -128.436026537056 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1362.66707824684 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.81491069203665 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.14965074903299 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15060169556051 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07163756278488 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362262337678136 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02594670573036 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54956475186077 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40859848861778 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23534457403109 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11058874581808 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11641702943648 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19102584821858 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.4150242091277 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3653803823704 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.24835801040177 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33533161169081 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1707742223421 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 14.0452335692683 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.03599590230496 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.91890217418552 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.84375389865385 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.01226570104039 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.41797361121125 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.49992331183071 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.0700939780116 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -149.820771998072 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -5818.58816576315 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -57.3271868762526 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.32363592540869 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18855583093288 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07443876680385 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362930615903365 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03575476597191 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55521021176195 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41240102711304 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23769579804413 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11125719962260 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11643329108545 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19104772445003 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.9109918453425 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2965447310866 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.21629347674849 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32779265443563 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3402070833109 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9603916645899 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.99463402163189 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.90709972721044 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.78651262091235 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00293311463586 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.30297689157521 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46414611965608 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.1742588170365 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -136.167193951142 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2152.84779033500 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -628.604183809578 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20188663036818 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16940081653281 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07479221099897 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363104521485977 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03306340279294 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55315261653958 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41214059135852 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23727883037867 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11168536244077 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11645152755190 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19107164809900 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1718316316068 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2283495832834 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.19190116666508 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32252051097211 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.4066781431902 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9133539764412 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.97048037773759 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.90115523751217 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.77436160020708 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00069137952857 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.26868991630849 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.44900785836969 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.0862808730177 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -134.539006997378 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1924.50249939539 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.81402975490756 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.14981993104320 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15261933565652 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07343336140489 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362747056928711 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02652124714990 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54991796974378 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40890995402514 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23557209898000 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11131099019282 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11647019073802 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19109657010189 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.4786731374196 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3508980938353 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.20607390161617 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32042759339609 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1376315624778 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9909792024392 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.00259075875472 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.89829028026079 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.78668760268852 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.39378859354900 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.49098598590820 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.3892156956073 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -157.610611688938 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -58.2371593670772 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.32109760050779 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18918007783339 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07592797420450 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363333463448108 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03557128211641 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55520327804912 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41205891981915 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23760969244438 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11180929695843 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11648840314420 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19112145662107 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.0285772157550 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2737450609897 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.17234992120046 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.31334390161947 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3095657851077 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9002946507996 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.95876527257814 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.88707920406928 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.70792611934383 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.22640675051988 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.41591077095685 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.7086676982998 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -94.3054109815684 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2151.79883632413 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1135.39536401466 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20785511738685 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17202480975979 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07532670477096 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363342255392273 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03293712408533 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55291346996972 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41140054596794 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23687485481991 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11212825812056 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11650692976686 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19114677812408 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1841698917362 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2274670976675 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.15370657138155 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30858366572886 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3582653378345 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8700997935084 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.94206399385713 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.88207026724079 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.73086090105096 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.25041374817589 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.44800230928795 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.4640221612620 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -138.698946456968 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2329.24805809542 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.80723683179268 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.14198310492200 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.15042850884932 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07371246076686 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362901985305745 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02480037612300 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54918494585072 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40735275691331 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23488445255284 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11156498715083 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11652484266429 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19117180653926 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5107106814818 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3422076387354 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.16840747152809 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30688412284549 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1027204602955 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.9448519021927 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.97375722835474 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.87998380492946 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.74242007836892 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.36932642665289 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.48124323205257 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.5881447660132 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -162.510064790216 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -59.4693834990504 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31473351778259 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18702899648624 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07618468440668 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363459151185061 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03364037828451 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55438010240427 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.41015692182464 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23677239686132 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11192202464990 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11654122081192 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19119559915620 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.0602157249472 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2613934014869 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.13568493758335 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30024637570734 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2760426471464 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8551878917027 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.93065691037913 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.86962612427198 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.66747771200037 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.20387606784798 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.40694381572310 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -16.8705525321705 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -96.5240874763793 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -2842.32299906739 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -1844.43102048860 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20247457613962 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16997135881036 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07554257839457 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363443927344733 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03094069672004 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55205565618721 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40928889481011 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23594302067829 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11213874423639 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11655694468324 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19121874351947 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.2013271123178 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2138289394790 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.11822977785181 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29598521015360 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3259356917660 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8255683655748 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.91451615481324 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.86533364930340 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.69157676965066 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.22789196333039 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.44021570148898 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.7158859879241 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -144.198578059239 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3810.89405087244 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.80139599593603 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13694049608668 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14838723337485 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07387773183253 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.362982552886690 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02276639973351 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54830285872588 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40510033115124 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23388650420567 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11149789737886 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11657126193449 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19124069080360 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5388823536999 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3260351850697 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.13350359159405 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29464002930724 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.0759402513998 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8999515722082 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.94626812828021 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.86380433028148 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.70426017049581 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.34603320550307 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.47230426578712 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.8654871465065 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -169.989353959640 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -60.5606980998834 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.30900964848758 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18476744894141 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07629313662876 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363520209824560 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03151050939609 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55344826958165 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40778185932689 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23571395371717 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11179117409823 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11658346165993 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19126070372334 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.0807385904247 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2435751849830 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.10185298750560 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28843744577582 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2498663080964 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8113284753807 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.90390693626876 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.85407127564959 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.63135116215802 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.18237011425859 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.39864721190018 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.0443148842528 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -98.9757229005628 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -4270.20242638753 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -3949.19911969826 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19728041185271 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16771260373448 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07559607345866 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363485124492031 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02877048361809 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55110226647075 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40681681383864 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23483847466528 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11195520154845 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11659461231592 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19127955737302 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.2238092942878 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.1949159382646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.08533089651304 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28455075539831 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.3017985340396 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.7822498960419 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.88825135785960 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.85026524802691 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.65598186288390 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.20656441006224 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43271479377371 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -19.9608359063175 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -149.864653275584 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9472.25548268396 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.79579296428446 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.13201032799447 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.14612729208776 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07387872951484 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363006299517560 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02058080919773 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.54733737098042 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40257409320687 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23275351547142 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11127245278421 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11660412847374 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19129687132885 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5770565040042 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3028561012274 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.10059201858272 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28343187196177 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.0562246149053 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8561820418242 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.91995519183726 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.84913763399608 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.66943841193169 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.32408318314695 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46401130394632 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.1267440912874 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -177.533635400472 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -61.5550984600007 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.30354606920859 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18234388090641 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07624369362720 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363528568342541 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02926150992549 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55245040891220 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40519143426101 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23454766152123 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11152976067148 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11661142691699 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19131204382739 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1008502394386 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2217572513470 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.07028577025362 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.27763072040379 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.2294731286134 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.7691346514025 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.87852310626424 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.83993444910291 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.59808627621366 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.16203081667617 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.39094983534561 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.2047295443425 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -101.317441922697 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -7875.99369160725 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.84742268525388 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19231242678023 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.16531599817476 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07549979357598 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363477985674300 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02650730472049 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55009644599934 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40418807067158 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23365258211097 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11166276882015 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11661766600599 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19132595462868 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5250476260182 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3325069739862 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.08048863015738 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.27487140840255 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.0094619329411 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8381482330715 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.90602623891106 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.83610498685019 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.63811580439309 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.32090256253689 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46862935636570 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.5552836075756 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -184.838062397143 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.0313206357242 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.31773131082217 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.18997380148863 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07787830831707 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364028520857269 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03257092556043 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55410044019060 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40682664987489 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23545132364270 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11217029524641 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11662423459387 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19133962578197 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1435806281502 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2327103507963 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.04584919010885 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.26820541556660 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1998854250668 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.7426874643244 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.86089553895100 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.82620604847371 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.56538464890044 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.15214437625207 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.38791384834885 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.2957116879452 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -102.824564813478 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -17843.3595336969 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.85142944618008 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.19995790739237 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17012553215765 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07706676435429 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.363936047836939 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02858913056829 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55115393879468 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40554044089161 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23437909431171 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11232622804435 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11663172366062 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19135398657141 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5455272187527 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3396876059529 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.05557622260012 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.26547686101875 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -13.9796695169811 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.8106312494422 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.88787653809370 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.82280234423623 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.60769346174294 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.30920669065616 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.46478604620124 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -21.7632096401130 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -191.623576834329 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -62.6720444787255 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.32012441097570 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.19266316910180 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07926128916261 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364427991073071 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03368084360840 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55468960606346 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40769433978396 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23592492778249 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11276746999483 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11664048534349 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19136931201858 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -26.1564209429023 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.2389178742400 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.02176711445093 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.25908513855573 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -14.1686688030328 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.7160013726065 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.84328490003785 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.81355454608832 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.53754996482716 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.14086462206509 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.38371443074430 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -17.4373497166399 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -105.002731547213 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -914.924202542514 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.85131724139846 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.20026827317368 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.17159771984201 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.07825375668067 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364276685353968 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.02904696487191 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55143038413631 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40593808739501 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23462130932754 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11282740843553 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11665017298435 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19138568596369 at nshe,nfasti = 40 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = -25.5644291972088 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 19.3407066248773 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.03117246705684 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.25656606280963 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -13.9489849736300 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 13.7821047495304 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.86963437531805 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.81066953460549 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.57406263943184 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.28394581517100 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.45071972886122 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -20.4890290554979 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -164.310403116986 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -63.4645161537887 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 19 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 20 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 8.32044747254501 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 6.19367133849502 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.08013326476160 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 0.364682507295723 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 5.03373898087247 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 2.55470333405732 at nshe,nfasti = 23 5 %fp_imp warning: RF renorm adjust = 4.40769273396803 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 2.23593848616318 at nshe,nfasti = 24 5 %fp_imp warning: RF renorm adjust = 3.11317729455580 at nshe,nfasti = 25 5 %fp_imp warning: RF renorm adjust = 2.11666056504768 at nshe,nfasti = 39 5 %fp_imp warning: RF renorm adjust = 2.19140273562309 at nshe,nfasti = 40 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.681E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.633E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.550E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.517E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 21059 TA= 4.20000E+01 CPU TIME= 7.68830E-01 SECONDS. DT= 1.00000E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 10.6624938888889 %check_save_state: izleft hours = 69.2580555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.144E+03 MB. --> plasma_hash("gframe"): TA= 4.200000E+01 NSTEP= 21059 Hash code: 110389666 ->PRGCHK: bdy curvature ratio at t= 4.2053E+01 seconds is: 1.0760E-01 % MHDEQ: TG1= 42.000000 ; TG2= 42.052632 ; DTG= 5.263E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7870E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0760E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 42.000000 TO TG2= 42.052632 @ NSTEP 21059 GFRAME TG2 MOMENTS CHECKSUM: 7.9423269073109D+04 --> plasma_hash("gframe"): TA= 4.205263E+01 NSTEP= 21108 Hash code: 103410663 ->PRGCHK: bdy curvature ratio at t= 4.2158E+01 seconds is: 1.0736E-01 % MHDEQ: TG1= 42.052632 ; TG2= 42.157895 ; DTG= 1.053E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1510E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0736E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 42.052632 TO TG2= 42.157895 @ NSTEP 21108 GFRAME TG2 MOMENTS CHECKSUM: 7.9446297437304D+04 --> plasma_hash("gframe"): TA= 4.215789E+01 NSTEP= 21161 Hash code: 57746812 ->PRGCHK: bdy curvature ratio at t= 4.2368E+01 seconds is: 1.0690E-01 % MHDEQ: TG1= 42.157895 ; TG2= 42.368421 ; DTG= 2.105E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1110E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0690E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 42.157895 TO TG2= 42.368421 @ NSTEP 21161 GFRAME TG2 MOMENTS CHECKSUM: 7.9492354165693D+04 --> plasma_hash("gframe"): TA= 4.236842E+01 NSTEP= 21267 Hash code: 33690245 ->PRGCHK: bdy curvature ratio at t= 4.2684E+01 seconds is: 1.0624E-01 % MHDEQ: TG1= 42.368421 ; TG2= 42.684211 ; DTG= 3.158E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1590E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0624E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 42.368421 TO TG2= 42.684211 @ NSTEP 21267 GFRAME TG2 MOMENTS CHECKSUM: 7.9561439258278D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 4.18892E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 5= 2.09563E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 5= 2.09328E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.268421E+01 NSTEP= 21425 Hash code: 85232845 ->PRGCHK: bdy curvature ratio at t= 4.3000E+01 seconds is: 1.0560E-01 % MHDEQ: TG1= 42.684211 ; TG2= 43.000000 ; DTG= 3.158E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2120E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0560E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 42.684211 TO TG2= 43.000000 @ NSTEP 21425 GFRAME TG2 MOMENTS CHECKSUM: 7.9630524350862D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 21550 TA= 4.29342E+01 CPU TIME= 7.87044E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.48433E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 8.48240E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 8.48118E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.53208799999993 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8805E+00 8.4448E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 537.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 537.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.8 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = 2.48295785123832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.1458414908159 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.56247349298758 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.23288280283706 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73526629983007 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 8.36895247439098 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24685605827703 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 9.44751454442395 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.68157694074440 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.66083745865266 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.76243916532351 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47320965340993 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 3.62355672064932 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.33063893902634 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.87328675835506 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.67136614856462 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 3.49162261626515 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.04482484421067 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 3.62850023830956 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 3.21664315466464 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.64614378025882 at nshe,nfasti = 13 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 14 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.44925762776207 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.60444085778515 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08547709122723 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15743760021600 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02560240249056 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 4.12296401293781 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.396027678461693 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.53051458078246 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.397394820082546 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 5.17272564807837 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.52680406527675 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 0.488409788750824 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.17478266786665 at nshe,nfasti = 21 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13302 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.885E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09522562717429 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.81296217678157 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.81589959235830 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.26895126633009 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.25020627363744 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.10273960764700 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39775001786227 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01299371137614 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18241879545256 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.45991341095793 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.51995100970564 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.61788994753141 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.51133332621522 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15975660620027 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.78439902569260 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.18111927114865 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.94699526669122 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.20942332103196 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.16305151034371 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.20707739146298 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.11893553721376 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.431215565953537 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.21180564858347 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.17909729914180 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.973E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89646358398698 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.86589584166287 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.31222762908305 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.54853727009868 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.03696065145740 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.17885573309320 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.01241271852148 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.40448726450987 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.59317995102670 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14794354965169 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79882981345028 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.01429408815581 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.14773052635572 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.26547074025678 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.17231395601766 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.17721826163472 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.04980929229577 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.411833486090109 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.36136723858478 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.21234219627595 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.983E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.42578088387305 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.74887687053249 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.71579241308701 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.20468647948377 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.41678238921007 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.16095782397997 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.37367380347315 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.57897117035909 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14809386360289 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80953728867527 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.23111047167213 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.20042246794368 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.29703985744441 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.18444455171140 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.19851564298133 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.01226873008362 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.402097288497357 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.57759539607284 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.23594708752832 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.982E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.81915290047742 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.43358297039718 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60750093396103 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.15337999651417 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.34624493270430 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.17679288333818 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.40793944096704 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.58672357406252 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.16455872239175 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.83561452178695 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.08374066959158 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.23737958173027 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.31844029957112 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.19706675295536 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.22624097683850 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.405200704394320 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.74278156692293 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.25580236137023 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.989E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.51174610434625 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.35597519425839 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.49229731927709 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.12954747786236 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.31428887975959 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.20521568888644 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.44862143572930 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.59688669680356 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.18032604262245 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.86848091765742 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.28175262811027 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.27228833569377 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.34089453188366 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.21341747133742 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.25609069079904 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.414947637154348 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.85765222419408 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.27155967687360 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.991E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.98658941061450 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.96003395302053 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.43768869548543 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.11982284189478 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29205948208584 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.23770965985036 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.49373712001089 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.61475027094516 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.19942209993493 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.89935121182465 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.19554140105649 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.30057685442836 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.35695043192261 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.22417230687501 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.27388492898917 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.423420825749846 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.93526375578439 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.28314553095259 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.992E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.32076773512470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.53996823135987 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.31488984230872 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.11000927107741 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27880069958401 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.26462833081838 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.52953131004018 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.62806359447967 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.21449876894465 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.93156138933805 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.34330454989795 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.32815506430109 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.37284733385028 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23627245888023 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.29334971503964 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.431370490727629 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.98171055252098 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29134897946967 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.993E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.03621286221151 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.52764016376211 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.24849026332438 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10714708251442 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26540317840837 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.29434312627209 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.56902076020333 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.64603760760527 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.23177614489662 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.95869840265366 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.30246226164632 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.34932936711372 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.38341290987256 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24226239168283 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.30253683202207 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.438117130344586 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.00756224767923 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29674051958306 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.994E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.97328922422895 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71585979690212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.40984687336094 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.20039639759669 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10517956561529 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26002434155438 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.32200369700930 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.60070815708899 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.65826211892929 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.24478806844209 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.98665697863533 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.39779164927176 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.36975537457914 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.39467916479345 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25014095822508 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.31409335642824 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.444290978394980 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.01370895351861 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30021070347648 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.994E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.84136190923937 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.61478979844235 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.45037084886066 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.17788875140734 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10537394989948 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.25114339091433 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.34862112966067 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.63414285227150 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.67413838085904 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.25940092725229 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00911407904819 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.38992631269679 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.38481247667873 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.40135280142144 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25279429344927 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.31663009533020 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.449442158222877 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 7.01032523812135 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30215919241432 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.995E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.15379535493898 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36706361927793 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.38217018575334 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.14567246261198 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10476931640148 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24781372107382 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.37137795753462 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.65946974317373 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.68404109572890 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.26977615702069 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03239374505512 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.44179377757425 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.39971448459507 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.40971129905621 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25793591336081 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.32269997032725 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.454210479550271 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.99609762141346 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30319563530773 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.995E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.74649811697537 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.20524578179152 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.42272770156643 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.12868093844734 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10499293543275 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23986779791344 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.39246783521539 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.68671771111894 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.69735535968733 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.28173908467159 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04995181716777 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.46525480210992 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.40993288544400 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.41379824337401 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25836886588532 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.32100291142898 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.458091418631585 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.98097910205703 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30347299016180 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.996E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.80222493462760 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.19495916113883 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.40879377368774 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.10519852687404 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10296037298978 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23175445173981 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.40987208857166 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.70763226775596 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.70638626798873 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29016236281463 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06368733039718 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.47915317281606 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.41709624961841 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.41741128030305 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25867409762150 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.31840156784430 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.461420994908694 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.95949565766183 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30320223173010 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.996E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.45810870828861 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.01563000913571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.40346917842869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.08411133675091 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.10083126942110 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.22422354735027 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.42476488929459 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.72682726091205 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.71465216888836 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29789929651652 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.07705544844246 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.49139903292671 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.42362110229763 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42062986721704 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25883250327478 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.31556470265988 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.464343203458837 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.93687318249332 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30269779909802 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.997E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.54478588250605 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.06113824152707 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.37121560784165 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.05727579249321 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.09788985323968 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21716874979934 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.43694969492347 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.74323305416870 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.72198143839924 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.30483643086531 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.08918442883927 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.50215351175937 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.42919540493292 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42336674034426 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25882727374430 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.31267690188689 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.466915933519764 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.91469809720404 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30205951160134 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.997E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.41249839468351 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.36237107490274 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.03841806104950 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.09542803876574 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21090075135850 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.44770621499476 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.75804184211498 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.72856027761632 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31100319586350 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.09991626030201 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.51153484705581 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.43384717055538 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42566148018737 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25864318961524 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.30963971077459 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.469177167507421 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.89347458784523 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30135749818345 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.998E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.12344712065252 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.34160475330361 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.02036792802493 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.09262007576862 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20473485317866 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.45678383377617 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.77054577632641 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.73431532073473 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31646110990464 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.10940303221085 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.51966371769691 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.43766064219145 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42756438484659 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25832347577574 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.30655419984693 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.471157541577960 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.87332094017822 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.30062505998778 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.998E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.21506994661610 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.32679103836519 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.00005579875142 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.08946046804444 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19894360482182 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.46409252257003 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.78157998253696 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.73927065432316 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.32122181001979 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.11771626019208 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.52665664008155 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44074688756346 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.42913902182154 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25790181117303 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.30345131259100 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.472898688223596 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.85433716268583 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29990701878257 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.998E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.05771636187489 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.30222567853488 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.98397876139143 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.08618754261808 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19333139896606 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.47031469339773 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.79080338488771 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.74355868353622 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.32542919123966 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.12502032689618 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53263964949500 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44320866702893 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43044116883568 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25742509743192 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.30044031349667 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.474435968984423 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.83652100612230 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29920538108163 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.999E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.58968862398180 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.29784717040808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.97128714200746 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.08335871846504 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18800322882146 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.47578875427769 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.79915726773093 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.74732484673714 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.32917404673311 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.13146693609796 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53775446694440 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44515183367511 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43152045135056 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25690303308057 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.29749106429333 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.475803202117159 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.81982616691663 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29853404486568 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.999E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.68086780967597 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.27639832666135 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.95320868754616 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.07963649094068 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18264053063488 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.47966400741766 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.80569005550609 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.75041461527119 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33243484721770 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.13714467291191 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54209621279152 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44665349755552 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43241438433993 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25637338089966 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.29462313678283 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.477025883048460 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.80403084098121 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29789430085341 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 5.000E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.43583808741510 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.26011824814711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.94088721017565 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.07644648620515 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17782847024686 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.48311687297354 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.81175936262929 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.75307579186526 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33527166408842 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.14205690009902 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54579192378292 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44777767107565 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43314899479484 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25584271216712 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.29190859194370 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.478107818818143 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.78938316722457 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29729020513450 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 5.000E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.13270708281905 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.23679311848948 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.93025496942790 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.07324030451144 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17298294886594 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.48611040129121 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.81663785130144 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.75536314088927 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33783030771940 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.14645056966187 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54897541025582 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44860500221815 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43375636022035 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25532926718542 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.28936887754484 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.479076423420211 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.77577168011365 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29672346160175 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.13777960981073 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.21982416519030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.91568260888322 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.06980670954114 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16847483245472 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.48800166566938 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.82089708235809 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.75721047061992 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34002561530992 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15039723634899 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55162546798504 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44914269590960 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43425343160855 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25483346735701 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.28701867646992 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.479952592853395 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.76314687559944 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29619617207459 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.02957575149015 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.19809035569234 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.90504659308909 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.06641598200533 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16408233113122 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.48959865165792 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.82418569395113 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.75876419261329 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34199025977390 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15318306070299 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55389616343061 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44942946271583 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43466000711197 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25437320858815 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.28483756021312 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.480735062807226 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.75141773660809 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29570492139322 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.79955030431645 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.68018503038526 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.19026711849905 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.89843311533520 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.06367272306424 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16001926900372 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.49117003995433 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.82742992085767 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.76011058857955 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34375058514991 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15559857102705 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55583468793690 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44955846339260 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43499216338434 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25393991723522 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.28283067434204 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.481434139964984 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.74057301160881 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29524796533625 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.06436150148163 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.16186194190122 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.88436202871419 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.06009972500157 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15595597998145 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.49164760682170 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.82950046852654 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.76104494534979 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34524607876001 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15769593134135 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55746243394816 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44955034220371 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43526226878011 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25354435904667 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.28100130746334 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.482061274950778 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.73048334016132 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29482328256800 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.751E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.320E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.79793141367177 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.15394071498517 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.87842033267100 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.05728564743977 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15237961300788 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 4.49230891170966 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 4.83169103673060 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 2.76186432740087 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34659339602959 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.15951935883604 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.55887084643011 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.44943281286120 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.43547993847830 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.25318545379843 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.27933331279139 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 0.482622952964353 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 6.72116358186579 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.29443422520807 at nshe,nfasti = 22 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.703E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.649E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.575E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.547E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.524E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 21583 TA= 4.30000E+01 CPU TIME= 7.83604E-01 SECONDS. DT= 1.96842E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.0657266666668 %check_save_state: izleft hours = 68.8550000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.300000E+01 NSTEP= 21583 Hash code: 71726120 ->PRGCHK: bdy curvature ratio at t= 4.3500E+01 seconds is: 1.0439E-01 % MHDEQ: TG1= 43.000000 ; TG2= 43.500000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1780E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0439E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 43.000000 TO TG2= 43.500000 @ NSTEP 21583 GFRAME TG2 MOMENTS CHECKSUM: 7.9739909080787D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 3.43988E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 8.34966E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 8.34930E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.350000E+01 NSTEP= 21834 Hash code: 50685001 ->PRGCHK: bdy curvature ratio at t= 4.4000E+01 seconds is: 1.0326E-01 % MHDEQ: TG1= 43.500000 ; TG2= 44.000000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2090E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0326E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 43.500000 TO TG2= 44.000000 @ NSTEP 21834 GFRAME TG2 MOMENTS CHECKSUM: 7.9849293810713D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 22076 TA= 4.39840E+01 CPU TIME= 7.86586E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.62842E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.38189E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 6.38103E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.831E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.996E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.728E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.78378000000521 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8865E+00 8.4471E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 537.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 537.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 9.84659589273907 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.50884285082676 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.08669262466416 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.19840635984340 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.22313707843996 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66605157294692 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.27855178054023 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38437653335045 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.40267834197873 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -52.2277369604153 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.88392281946469 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -23.1740752216966 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.05664359406811 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.81893061957227 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.55437226422721 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.30111762717728 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.56933750038672 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 7.24318825728229 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.58794312798150 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32324712226772 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = -39.8717719114165 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.97954173143345 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.45837514439796 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.27811805375224 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.19386289758484 at nshe,nfasti = 22 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13226 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.831E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.996E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -100.018719655347 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.06244269601229 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -29.4668668686623 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.73072210172689 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.39501754849714 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.98812172931287 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.97491856004054 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.47789890464959 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22996716117957 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18867632523569 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.453810135046921 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.04625713545170 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31064866931613 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.77747703546072 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.78793009158714 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08623313200339 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.416064439983668 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.71580410966634 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.01771627797985 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.76180324225494 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 8.06098391772651 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.53454543278127 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.64968600575513 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.10658333573520 at nshe,nfasti = 22 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -25.8886569021540 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -41.8008705132031 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.86945161301167 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -23.2732219305021 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.72389867660505 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 9.00294917520776 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.03554162899015 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.28993677053387 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.00822023915638 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06124645211349 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.433419742161046 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.89774506443849 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29724787782496 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.07342865847447 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.03411375784211 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.03192453731670 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.403193449080427 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.48903992454650 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.76800860129171 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.482804737543717 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.71151384537868 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.94645691227282 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.30460382548991 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.61504948267738 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.66742597489007 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.04118565921890 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -427.191604017272 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.49084357896072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -32.3909910099773 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.3677260241550 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.7890337328760 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.92476739765244 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -20.3804195323416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.54009631676478 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -960.421035689710 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.43267483082491 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.07881672963380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69998122732607 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.52478042268981 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.87661396393223 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.44889859953414 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.07230980723049 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.499237248576715 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.439827553728621 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.43641432639189 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31432696583884 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.21352833165943 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.14740671612231 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.00515300625169 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.392571807272830 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.45358771907970 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.67118531829369 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.460996534155225 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.64076265762204 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.41580847733257 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.96915830169427 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.76245606031187 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.56455995940832 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.63589573164138 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.00561665107890 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -59.7545225623398 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.23204810166921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -88.8371217454132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.2599336501340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -15.0920616443018 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.17919338758079 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -17.4296283614145 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.69585823023237 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -342.335181479743 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.41906984831919 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.21087163654142 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68768717740617 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.97997728804422 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.59269168754199 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.13854566998257 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.498568214250813 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.418347198985572 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.61420363834307 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.35241269147239 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.33814491976809 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.22515909543941 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.388171890243548 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.52196999877459 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.64321448482987 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.451101795208567 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.61556813754465 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.29670584675136 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.91129635992376 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.44289286992637 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.49685273080239 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.59875645292571 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -218.587208822046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.52286395303948 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -49.3444421151614 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.8093032730336 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -14.3443109659712 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23098141404075 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -16.8175253130492 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.85755919083779 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.9927274133992 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62985356781215 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.47442868073026 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77102141337100 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.40390392934672 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22699789563545 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.396278717493939 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.99603088080182 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.40619697005797 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.45798299001582 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.29356840085908 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.00281676822305 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.384899312141265 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.61074104084174 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.64542011041888 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.445829508507476 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.61243313889528 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.22408033304255 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.87455009469353 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.23456729543353 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.43196286740949 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.56368348115223 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -60.5185533934434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.31460983249574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -66.0570509768144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.8539348996340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.7559637776778 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29342050407370 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -16.7666434167105 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.96022150923794 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -27.0954439713878 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.84781422681841 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.73722363778512 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85893247211317 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.30441447903598 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33253604628928 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.375435162580731 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.42010859647572 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.46834810297196 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.58729347804416 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.35893279823799 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.01305633725094 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.384395239624493 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.70847006272657 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.66178079523716 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.442996721667844 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.62089866277775 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.20570593171568 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.86237825330579 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.09379986752475 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.37358843389878 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.53212483541690 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -152.545079108473 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.90663546619510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -40.9183090583644 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.3281069429716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -11.7992540892439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.35178365195943 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -16.6735170772783 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.99313735592078 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -19.9631576028064 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.03798768731787 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.97005615615111 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93353355542688 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07045523479087 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.30419878114083 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.45274954490293 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.357066063531758 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.87085256266093 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.53440018960583 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.72225387128182 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.42162552424835 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.02791013715244 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.385268234392541 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.81036950029938 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.68602837238674 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.441642643872594 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.63623917649332 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.21374423544324 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.86271446762354 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 5.99446515246984 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.32196866407766 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.50413304549604 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -78.6020015069182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.91611065505884 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -48.4226651988654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.6667590883504 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -11.5872435301224 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.38315783229587 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -15.1502219183513 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.02996511793957 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -16.3116269378558 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.23054032111518 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.19403196479973 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.00582591255697 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15246664686785 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.58658372992759 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.00295030537994 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.341376733276087 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.34483074988096 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.60179974549292 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.85902652744871 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.48189730258167 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.04521801794563 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.386948361484001 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 8.91573580805238 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.71479815742455 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.441223413184380 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.65591051651034 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.24507966481616 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.87327651172606 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 5.92366140726929 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.27655555086275 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.47948220626165 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -127.609702398435 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.1663068895400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -38.1938882301661 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.5199708843120 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -11.2234663145342 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.42081454644505 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -14.2786850337288 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.04256342584988 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -14.2125706031255 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.39583907446817 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.39604414273817 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.06923968290515 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23161828952573 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.73253515917834 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -168.793094841237 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.06721169635497 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.83697074791388 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66948527162016 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.99575433552857 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.53963905166905 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.06366991253817 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.389096452782651 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.02440181474671 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.74616904864018 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.441400614326213 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.67839016676089 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.29263247406710 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.89077536334252 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 5.87253610473476 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.23679931644717 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.45789189049454 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -99.7963040432059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.1763996682110 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -38.4431861311798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.7035993756074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -10.9866214014970 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.43426408687599 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -13.6415174475915 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.10456908520078 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -12.8788901592145 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.53995333054318 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.57341321868881 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.12313628264566 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.30770257869084 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.00306189953039 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.89563914719337 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -29.9656257396244 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.25908872041187 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.73901368644226 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.13966796092917 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.59646690615185 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08221936909134 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.391385242406067 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.13839812151310 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.77869425239722 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.441838195199981 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.70205770396939 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.35334764119842 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.91323652851920 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 5.83630573865139 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.20212865384000 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.43907952924119 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = -104.203047008225 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.2585854155162 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -36.7981357616792 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.6343224489772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -10.7021613069355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.45955942779306 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -13.2747466359196 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.15701492518117 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -11.9061786198609 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.67871928661348 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.73239950675552 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.17277889217658 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37624397803032 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.05167032363123 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -108.349498922959 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.36579891806846 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -25.7798106719206 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.31024543265621 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.79444458301930 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.25928355186507 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.64570713977482 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09990981557823 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.393705198721988 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 9.25002718281245 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.81040945344581 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 0.442435935297538 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.72590211681084 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.42418364155362 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 4.93925411786967 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 5.81164573816666 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.17183611112148 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.42276203965764 at nshe,nfasti = 21 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.831E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.996E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.162875575417333 Pqlo = -7.185036410637342E-004 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.103201989731210 Pqlo = -5.503667998183331E-006 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.101350757842291 Pqlo = -2.500879697487039E-003 W/cm3 %fp_imp warning: RF renorm adjust = -185.660334420123 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.85648962386977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -29.3791936951292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 17.0857356195509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -14.8358500720589 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.26065531662676 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.18939954656683 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69769206568851 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.07700567760220 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11415440160148 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26052372271566 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -266.858214747217 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.6323961036762 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.76886023289868 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.32345315869006 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.73076714534756 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.80721779144046 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.42766057240953 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.460508453972405 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.44976843817616 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.03431122411618 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.93162579373143 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.22535134183971 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.60709121640780 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.66331433199661 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.09881510295932 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -44.4544621818744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.85174792178220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -41.7462172990396 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.5469082629798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -11.7677309039327 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.53204875642317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.48497072021452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82763752202171 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.49473827356923 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18695922398895 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28498232427319 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.83354606020579 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -27.8850608936590 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.52204858313878 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.34611497595733 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.71097864419701 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.84005362682933 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.53943898147908 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.480085738118151 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.02548211288715 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.52688716440935 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.02907562194800 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.28315870256947 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.15792159654025 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.58572185223643 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.65061751477864 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.09013945500698 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -45.6116029341967 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.81615933030379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -29.5564839629574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.1969119787490 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.4578760589872 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.56394637045095 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.53049206613073 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84309998805688 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.55069480617361 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23285929564623 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.35642693531054 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -32.0947334413487 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -25.3427216737877 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.60632870978517 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.40176942030653 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.80427124256742 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.88330398510638 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.57165385298257 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.485000927408609 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.05109483975109 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.57995429151060 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.04220795318362 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.31824017740713 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.13389022633196 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.56434548379896 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.63953566383056 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.08108583518893 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -34.0796601526677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 8.64542156015701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -30.7506185751529 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.3383844049537 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.4346849306273 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.59357850334672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.56391844030027 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86139816326430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.72036713304330 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26794515719580 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.34829317903967 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -106.179979199826 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -24.2414764875243 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.55363022104304 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.42727897570997 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.87860972476382 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00634974966069 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.91864336466892 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.58678640125012 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.486774292157800 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.06696037643581 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.62760964080990 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.05976323587852 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.41099475068600 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.13179713923948 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.54567366393200 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.62905880674456 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.07267292140419 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -57.0245259028855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.19040166212375 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -34.5770992979983 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.0323074604354 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.7260549341348 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.60669441647319 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.57652489461332 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86852788381627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.75680038744457 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28465265029066 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.34479229751681 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -121.469178280777 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -23.1488093641377 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.54305037868973 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.45554580208728 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 6.95508235931894 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01791280175915 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.95173719842826 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.59870612550773 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.487945080544057 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08042169991262 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.67157590946960 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.07814432843164 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.50729557763044 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.13786858662902 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.52976758595875 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.61999682979495 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.06509997770757 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -72.7183295279279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.46946978789869 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -38.6513212415239 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 16.6063289888739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.9534293431863 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.61784299652725 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.58673478552857 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87228030942232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.76798753474175 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29838473073931 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.34704642302615 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -99.9985860051017 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -22.0947692610145 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.54860853766320 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.48561488824771 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.02872682644226 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02892344115043 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 4.98171871225058 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.60896866246507 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.488869268722566 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09272600847576 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.71288952284445 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.09676261012917 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.60104131316010 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.14822514042378 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.51624293916311 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.61223576724341 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.05835989859214 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -73.4154182969315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.68658020046088 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.0336840597891 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 17.6282055788259 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.1153007340916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.63526732834300 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.60174346929084 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87685049036585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.77685953310303 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.31273734614645 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.35362686817672 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -81.8213961528468 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.1208752413554 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.56121280473228 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.51699560095091 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.10085390206078 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.03960606143395 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.00947474838593 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.61817798397668 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.489657874523508 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10428837840304 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.75237837435199 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.11542514577386 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.69339036916946 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.16131366129496 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.50464626323514 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.60562420492282 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.05239418773316 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -220.501988396959 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0028074729166 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -77.8426138149235 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 17.9826471656717 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2144380412389 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.65412814401395 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.61924726305536 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88174862157462 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78951131806374 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32819846601441 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.36301629203617 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -69.1861216883202 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -20.2445441100847 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.57682177628406 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.54851574328003 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.17129056805870 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.05002303375669 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.03546026690532 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.62660710299357 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.490359770224625 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.11526798358140 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.79050029501948 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.13399534946268 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.78493647089307 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.17638079616534 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.49483351800129 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.60001231978670 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.04712901232725 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -467.741868096668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.95175178327974 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -82.8460337488728 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.0866274077158 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2721629537792 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.67759566026998 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.64054596374385 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88796401774566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80646380997506 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34431444415625 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.37391019799041 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -60.2378113328525 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -19.4667159151199 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.59368754514885 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.57987437929632 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.24005750036447 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.06014882218439 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.05994573838253 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.63441053738528 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.490999682327274 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.12577264346805 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.82744653194824 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15238151379442 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.87607725300330 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.19290422643604 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.48657548681404 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.59526735795756 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.04248950779398 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -515.858944256138 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.92836294067367 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -101.130539646373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.2004911237938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2873477885606 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.70173792489532 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.66353121614939 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89474615389456 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82736547921085 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36084330704061 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.38557612019854 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -53.6391050115037 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -18.7802685290232 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.61097934457163 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.61057767719495 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.30682916620999 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.06994587593335 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.08307533097614 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.64169335791921 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.491591660293703 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.13584807358405 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.86363252049141 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17052154666555 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 9.96686209756853 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.21057122445130 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.47967134189095 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.59127519165269 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.03840536151099 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -386.505856187068 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.93414217573555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -107.311199230721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.2287892326717 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2815252380842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.72815197669677 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.68845459734170 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90235359309854 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85099877401183 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37739079866629 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.39755695485944 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -48.5888573200361 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -18.1709483992487 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.62819386851217 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.64044329454810 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.37136974744713 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.07937470036974 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.10494638896528 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.64852381587963 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492143701456561 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.14551882614420 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.89881644375377 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18833449378306 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.22918216323331 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.47387869278087 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.58793794096020 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.03481229772351 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -399.431579259234 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0191237647798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -112.896617653937 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.2499961088136 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2572432566818 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.75513993790138 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.71441639448628 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91043294947915 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.87712673971120 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -2359.93590381030 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.91984798185107 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.67591126282039 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.02140722712845 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.40954562792160 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -44.6167793438464 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -17.6295178987588 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.64497368825887 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.66945068890914 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.43365561055621 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.08841888148296 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.12564828278196 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.65495473997505 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492661151952296 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.15480672182608 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.93313895976804 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.20580022531016 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.24852206150295 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46909351750951 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.58516867838322 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.03165254765125 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -514.106890613475 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.91809363605006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -141.922777863519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.3954013555412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.9034389663682 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.70941053606931 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.64953771967758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88158210364728 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.64143555252678 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29855190589057 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.38839224339339 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -43.3688098214218 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -17.3383132421629 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.64665462036616 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.69170592522953 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.49284750077110 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.09672254409261 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.14522883088921 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.66104058609527 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493151550163680 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.16373620743917 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.96691850948964 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.22289407222631 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.26742254349746 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46521674735081 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.58289230856126 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02887481070854 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -483.233044890881 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0177166555533 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -126.287076709045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.3881996105712 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.5822067552879 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.77493526712159 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.71651808714032 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90211430439967 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.74028698484749 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36765717049671 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.40383811312379 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -40.3923349696731 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.8667306221224 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.66420965929810 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71791899779881 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.54799152885390 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.10467884572155 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.16336959512619 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.66665916178137 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493604212038039 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17222747807800 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 4.99978199035567 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.23954402214556 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.28675514433312 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46213477877703 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.58104264850327 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02643364984822 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -989.490323693476 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0031470569871 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -146.922267924397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.5144640700892 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.3552688541557 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82050473577627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.76486738771283 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91932587980514 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84101849073396 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -575.168502014418 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.01372913983231 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.72489873074889 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.04193634305379 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.42442590716522 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -37.4554524708888 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.4167990094396 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.68261014916748 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.74492224193543 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.60251136480577 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.11249227801965 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.18072413918909 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67199563000382 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494035126203352 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.18040893963504 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.25578049060562 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.30641225120378 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45974556529980 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57956280439637 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02428903558651 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -586.083704207416 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0887970403058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -138.576571554561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.5070117558166 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.8947491780897 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78304804039225 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.71071951392527 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89531774803400 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.64384964814931 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.31822060255463 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.40799547976650 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -36.6607787788985 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.1960843723610 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.68477986718699 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.76494362341670 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.65507360249831 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.11970913888609 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.19738716652397 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67714621735465 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494452673941285 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.18833138321181 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.27159618688364 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.32627734074922 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45795721588318 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57840141270099 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02240529776983 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -916.116885468680 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0097054073652 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -184.177178459663 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.6763131117251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.4978915904160 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85405249098702 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78471052961693 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91987252349970 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.77002005477962 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -4120.69354566664 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.00449106214233 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.72386128464362 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.03458113455311 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.42639505899260 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -34.6088936778601 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.8164666589648 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.70228671706555 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.78933267401884 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.70426529783642 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.12669131904130 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.21294262252599 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.68198660371060 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494845805612752 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.19591540497156 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.28695319297209 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.34634993825691 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45670014603610 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57751634197938 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.02075132442170 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -707.796499184632 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.1188374860239 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -151.929363513098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.5952201093914 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.9347559894500 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82684278529905 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.74380236874616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90122625794645 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.62285290485824 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32525179427506 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.41517296570072 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -33.8038084155912 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.6149266580551 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.70517661304360 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.80814277316231 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.75242957131980 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13323296521842 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.22793925697946 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.68668588183046 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495231842427180 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20327873314094 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.30189346767114 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.36625145958321 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45587272994074 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57686551838696 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01929899194179 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -1846.56334560160 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.0760236246623 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -166.770547664107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.7637302126962 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.4719231965597 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.90197227344928 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82374227272180 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92924043454709 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.77042067349773 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -739.437078542815 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.06951672312326 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.75726046868935 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.05058031370975 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.43678898334475 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -32.0535258198787 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.2738656695415 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.72293155210633 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.83146495156765 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.79801403205584 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13964640935725 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.24206335306534 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69113611894681 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495599511613593 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21035694655871 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.31637983852189 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.38618210694036 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45544352098827 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57641591145643 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01802306840750 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -2221.58259624590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.2511787458584 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -169.039347937052 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.6165154904486 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.8829965298546 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.87605332873494 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78517390020255 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91218704123251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.63221026991344 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.33677029992692 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.42700876738955 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -31.4512851462173 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.1048148070730 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.72562583659844 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.84910328205266 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.84302112667638 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14567942490372 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.25580915735157 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69549767914403 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495965880319264 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21726553246142 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33046591359046 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.40601166197791 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45534575140888 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57613736494446 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01690208418386 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -3125.13334998895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.1574834487979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -179.361658989830 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.8006490197459 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.3961513331110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.95261497128506 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86793910159729 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94187296089485 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.79177256885337 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -380.608022542504 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.14152113908576 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.79380382752943 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.06943653228805 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.44975702199573 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -29.9794746006159 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -14.8006872827006 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.74304211767112 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.87150594529211 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.88568745540251 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15163559986608 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.26881667552648 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69965388370726 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.496319180113721 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22393255186299 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34411081558049 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.42567488753800 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45553268157873 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57600360063713 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01591679549306 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -1310.45155642529 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.2544099109348 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -181.484716873775 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.6946758135516 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.7999493491472 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.92601132309922 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82902380616482 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92531849484532 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.65369224074045 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34908232907039 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.43999295620706 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -29.5462879303894 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -14.6626330134102 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.74513346878089 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.88795345991299 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.92784754170838 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15722281672294 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.28154979423740 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70376001864999 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.496676059092469 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23046971205925 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35736283488827 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.44514268516896 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45596231812952 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57599179238714 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01505042886196 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -9228.93927476441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.2077938384545 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -207.429559448222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.8052623315155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.3050575930030 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.00326451390243 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.91341689456959 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95604119792489 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82223328224853 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -258.578609876283 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.21323845724969 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.83003485398999 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.08868306674680 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.46336235556627 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -28.2866808953429 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -14.3906884968608 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.76196053053895 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.90945538411908 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.96773666861536 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16277153343499 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.29364302449689 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70769772331879 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497024440599935 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23680182733504 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.37018082140804 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.46437909825895 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45659891529300 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57608324767994 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01428844564425 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -3100.03461020815 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.3464072889718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -192.164410893617 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.7179605397458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.7035777103074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.97499425432228 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.87297852522007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93945123456854 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.68090889785868 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36137535323454 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.45254405901024 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -27.9862177593508 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -14.2791413720453 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.76326923946416 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.92462345485224 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.00731563520607 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16797398471778 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.30555401333402 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71161864136020 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497380428977334 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24303446283864 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.38261159614064 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.48335762658131 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45738519484325 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57626077512002 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01361801477683 at nshe,nfasti = 22 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -96.5453357904081 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.2084891962635 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.05264922730451 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.95803861866426 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.97101098075539 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85722697104915 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -198.550022474188 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.28274173685915 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.86504617593078 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.10754757653689 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.47623585873380 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -26.8879459045020 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -14.0330334742932 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.77967354707029 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.94519422241194 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.04484443626760 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17318566357276 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.31689622546029 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71539189581950 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497731028554093 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24908585114795 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.39461359898131 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.50204326568450 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45831365499758 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57651017559745 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01302802874403 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -150.605438650607 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.3900671392167 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -205.980320744624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.3619341834658 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.5960490587885 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.02302760823251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.91706681062380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95421027249375 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.71156291827423 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37338698779679 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.46473766802657 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -26.6894553651935 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.9436386674875 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.78032743262244 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95922482388856 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.08221958437454 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17806726080528 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.32812303627633 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71916757634214 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498091537034696 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.25506122311051 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.40623320596272 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.52043473495921 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.45937029917684 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57681889241236 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01250858860981 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -1415.75688331343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.3667037470861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -204.537920270626 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.4726907518695 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.1090795023671 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.10049443903076 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.00159361265825 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.98627043508440 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.89463786415381 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -163.413247890720 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.34919897593618 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.89847329422334 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.12581168028624 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.48859701092392 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -25.7162356138537 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.7191194817593 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.79629458119228 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.97905670705520 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.11770996434494 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18299790628701 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.33884806440893 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72281571838051 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498448589899699 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26087670965321 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.41742572623013 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.53850530015152 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46053178938455 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57717601773099 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01205098673232 at nshe,nfasti = 22 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -100.082089193006 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.5030205328297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.06800657962134 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.95865913092672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.96870133800038 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.74294535506645 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38490524941020 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.47644625144305 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -25.5967492541848 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.6481716886453 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.79624124632572 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99206028596691 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.15315433462539 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18760844647321 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.34951913317695 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72648655926183 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498817649130009 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26663632261572 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.42825966527987 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.55624922360515 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46177797814036 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57757205986016 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01164747558889 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -148.400528175503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.4261886457580 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -296.704705723564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.8813641088604 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.0112608713157 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.14649436172013 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.04401810752797 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.00143869682865 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.93331373807595 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -140.485254167831 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.41245771035669 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.93025179212351 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.14338282445646 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.50049897558348 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -24.7185728293582 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.4415997583564 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.81187419368786 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.01121996971796 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.18687531130539 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19230680140860 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.35974978886052 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73005139824221 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499185561194154 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27225836629565 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.43869079157084 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.57365760645085 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46309279181399 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57799883537173 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01129116696269 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -1636.35219807731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.4568278215415 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -246.595500372387 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.9226247902282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.4090864162658 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.11167096781471 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.99940311882489 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.98325210632536 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.77565415311211 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.39598366101462 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.48763392616543 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -24.6599532104242 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.3860801473860 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.81127979338875 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.02330502914206 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.22067794784567 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19669671662166 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.36997319841229 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73364950971110 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499566844298103 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27784048299536 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.44877636397493 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.59073351910087 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46446145833219 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57844888067223 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01097604171985 at nshe,nfasti = 22 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -101.234123450801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -12.9239820574345 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.18976123745144 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.08436317379254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.01617620781442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.97190125154816 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -124.350441774058 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.47256015963142 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.96038267713570 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16021084096049 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.51184022031430 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -23.8586471207460 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.1945621864866 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.82661457089039 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.04186064152743 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.25284332986051 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20120132300450 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.37979171172175 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73713587157709 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499947180402488 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28329210190356 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.45846376801087 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.60745750968681 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46587244959945 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57891668550394 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01069693125424 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = -151.131188032312 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 10.5030213731518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -309.707887879835 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 19.0205079005858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -13.3161333631829 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.15376313161487 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.03911531662074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.99765271517975 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80908610667229 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.40659243474717 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.49825515087354 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -23.8491946570199 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.1519616042355 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.82548609547797 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05308078005228 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.28505555461201 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20539326648788 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.38963311341633 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74066641797502 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28626792009188 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.46782309478067 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.62383576135973 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.46731406004710 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.57939715731486 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.01044940483884 at nshe,nfasti = 22 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.831E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.996E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 6 Pich = 0.132019380670537 Pqlo = -1.175211495976440E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95188899363834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -160.361689741942 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.74716623641913 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.74341744025525 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.11905803610963 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -24.1174654885771 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.42399572365099 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96878818701883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.44439038854828 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.00522068818295 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19738405078332 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26744230009619 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -23.4259073950358 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.0035316062394 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1999.80797453510 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.83736669490063 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.04792671350434 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14843853844344 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.28404515387464 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.62282826659804 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.483203196744567 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17190868773393 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.49507128194697 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.89825074551648 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.09258549176268 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.85004348562678 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.74819261730010 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14010708553027 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02637489045905 at nshe,nfasti = 32 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.10399698781039 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -14.4084486935601 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.75318157780679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -519.864591734053 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.62346907999874 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.94849786541743 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39902006560404 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.93635032044751 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -106.778576856912 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.81698499897472 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.73989331737038 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.98775455040480 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27703702485739 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -13.7834886372443 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -49.2766321339717 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.45245182516831 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71203797909116 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.70218189388620 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.12498942229517 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.25796069042013 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.64652103741111 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.486931578791693 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17667942419091 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47005252984929 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.92200624700513 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.09538975495707 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.85772118566977 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75109831056189 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14189526262901 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02457381388704 at nshe,nfasti = 32 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.15979782255187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -16.1031096831132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.83250714625614 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55335412838423 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17217322777365 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26236124320124 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -21.2878901076478 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -13.3607249935663 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.64827729539504 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.82555875659061 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.01768355337728 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13951082998247 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.30119903889022 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.65569651746327 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.487580100901836 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.18463319450240 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47059076913685 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.93979479241904 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.09745607475315 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.86238507777509 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75332113889629 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14263785286404 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02431587434299 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.3847751532358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.34834266336793 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -14.6640036182707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.39694296379165 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -31.0083948607291 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5366905923289 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -194.177672618263 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.07459329348568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.19648692127949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.46999321790164 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.61726258838032 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.21878282053792 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27051774055892 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -22.3845415104841 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.7365613660240 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -899.063507096148 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86850808415356 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.10530598089489 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14974477135828 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.32090923709679 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.66178259342808 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.488361091811599 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.19329358210879 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47701290357771 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.95819261957639 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.09911060535079 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.86557815494230 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75456839911786 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14295385683818 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02417676502631 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.6027028005296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13483075896795 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -19.3602098040502 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.87169066036419 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.3211621926514 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9458950980604 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.76903175235897 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -133.699611244122 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.87406180095090 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.76772156210594 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.00725546334554 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28209404770289 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -13.4506352178614 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -47.8678519629923 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.42715679572266 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.72395479088675 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.74805342892817 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13029754362088 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.28799051045569 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.66331720721093 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.489172878478876 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.19154124987688 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.46927594522970 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.97948373740082 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10102057911813 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.86859440681294 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75553428695457 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14306344820247 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02414069488753 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.5407208806407 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18530617676174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -20.5560587111837 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.99379192673664 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.7079287561131 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.6613651987246 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -299.380773245442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.16903693107469 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.24162898917521 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.49696559966216 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.61556270908805 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19446019978593 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27115489776317 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -20.2910019549222 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.9440324310336 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -8886.09918027103 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.85018886165315 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.08498121659661 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14692728706950 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.33187210670997 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67066742243754 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.489434862930091 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.19921520306495 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47737396396038 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 6.99665445363228 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10269912920146 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.87105995940228 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75629509391617 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14305308333207 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02417049105446 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.6214292067485 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.17811997597719 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -19.3100916785438 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.96188431009426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.6641369118413 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.6035012215147 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.73553729800873 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -197.617053515884 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.87566254129637 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.76995745941136 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.00457438635425 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27170979851923 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -13.1340865594080 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -51.8915456769453 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.36478567998119 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.70876851023423 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.74387333487947 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.12851737316408 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.30036822802527 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67158135886842 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.489966843384488 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.19730603272096 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47191197764502 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.01574267005793 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10453121709749 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.87361333506258 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75699525521836 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14299530258781 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02424246757695 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.4909415311972 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24656358179114 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -24.8206937259418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.93158803111225 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.9851531136107 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.4899541160847 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58867054128274 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19401715963882 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26371804817860 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -19.6981357568143 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.6797054808046 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1227.75635399059 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.85176139328570 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.10606358807927 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14705828444155 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.34592969720978 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67853694818769 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.490106605134824 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20541522461401 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.48248672094332 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.03052774417462 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10607149474643 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.87571034647585 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75758411443835 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14289990754322 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02434383742871 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.0031479141073 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18428145719889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -18.9123610416451 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.96149578611347 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.0790121492663 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.4682132599107 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -77.9673683662110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.44697534617784 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.48173209405711 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61183565015159 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.92869587958056 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -161.123386433273 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.97112634323292 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.82497180050259 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.03151649582956 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26948530182681 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.8561106402214 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -50.9379636381575 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.34518230719106 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71040683983085 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.76643219343377 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.12967494239723 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.31381118301788 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.67895128052430 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.490585810307430 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20373459866520 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.47867590177959 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.04777346663864 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10777547044840 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.87799073154726 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75816919468530 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14280338188103 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02446731383669 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.7663456697554 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24015539886227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.0257554946591 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.14489387844438 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.4918418961439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5233891798489 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.47572733981861 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18561653627431 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26084532179065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -19.2515192374848 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.4655295990346 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -656.919439965594 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86179066587621 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.14031113382091 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14933378505597 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.36009373800939 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.68565254089260 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.490703336742145 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21215300834074 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.49058088168862 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.06102462136162 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.10919802255867 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.87987913785297 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75868016375578 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14269617008712 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02460860126462 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.7497032002782 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23575776539033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.5706129882054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.15919411305156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.0291422612687 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5438701605233 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -262.446115589237 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.30321267206274 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.34557246666092 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56160803586039 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.85002269257967 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -186.156836802373 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.98273684226455 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.83082941976314 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.03141227631406 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26777501525275 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.6746648745272 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -49.3955349426052 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.33649795735370 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71885898533739 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.79892398196201 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13254071711054 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.32745501150356 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.68575670144318 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.491179249606692 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21058876742198 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.48745106514544 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.07708407953922 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11079908418192 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.88200438290114 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75921329330399 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14260404584000 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02476421280888 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.7159198665540 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24387515064932 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.6951393852211 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.17809061254319 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -49.1449499092370 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5590119443638 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.44526163337190 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18691638419933 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26075304767303 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -18.7958933506193 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.2697253783957 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -456.131155613982 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.87594926843888 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.17990445469818 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15294405266021 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.37418419685724 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69228660771715 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.491301944189564 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21916562965407 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.49986996168703 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.08932223238330 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11213814884355 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.88377340003653 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.75969064621033 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14251103690832 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02493148609745 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.8738362700932 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25466629618147 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.7849362251739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.18500042918855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.8581308159834 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5818893173056 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -592.998767562480 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.33012515744133 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.34438285250981 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56324536137111 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.82810052780703 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -184.049263274301 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.01317942044075 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.84765380079116 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.03663329778879 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26839744261050 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.4883736843870 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -4720.54063422523 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -47.7609991749954 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.33197575911271 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.73079915664569 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.83540042904556 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13644936734376 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.34112010384984 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69218754614136 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.491787134730511 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21762199650470 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.49688154725836 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.10456443366817 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11367213073461 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.88580999339068 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76020359078764 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14243935008624 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02510775559113 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -11.9441839712988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26441040546211 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.0147951531416 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.19880077427529 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -49.4026253647102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5324710605394 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77018077109594 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28035448671274 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17972550007875 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -81.0763001787381 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.14270931425200 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.1650937694280 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -264.095771744085 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86424450518734 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.14675194308136 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16397127248368 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.37239058500500 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69610449994597 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492193638018029 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22420232544441 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.50419554310897 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.11746452511519 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11515230344601 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.88764116086031 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76068895904384 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14237556326040 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02529086505313 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.0121646233429 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27440060999364 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.1160847820890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.20585564458123 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.5521002021207 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5669919670073 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -379.645550742223 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.35510466114241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.37426162639307 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.59045141385460 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.88566873811954 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -256.181485613725 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.05310758665335 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.85116869312375 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.04018508114164 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21357878165085 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -13.0954995337804 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -110624.620708301 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -56.1275675317811 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.23288727049979 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71579008750084 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.84062210463574 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13948996224835 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.35124299180890 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.69829947081553 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492471808187150 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22253137282891 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.50097170272895 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.13186568824254 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11668670986927 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.88963307319075 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76120016880580 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14233033392260 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02547835703071 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.0257693990526 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28585431247725 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.3129220162052 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.22516797198259 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.2265934776855 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.5943984831917 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77351988073865 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26305304488161 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13992231990635 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -100.457800935860 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.01852225442394 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.2134195229660 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -248.182294305316 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.85076503403698 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.16162215855427 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16480259869822 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.38263751739840 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70182944097205 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492682213246987 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22879199810229 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.50915013853405 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.14315936373934 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11807870305823 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89135503227333 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76167070453287 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14229015209436 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02566830567389 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.0871299983969 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29647925735466 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.3822918317632 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.23548672523711 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.1184671833327 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.6478891038235 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -990.171411975374 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.35569295504191 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.36947946763876 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.59798761358414 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.87414231432041 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -600.518759307816 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.03654986903038 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.83926723597825 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.03000586612161 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18691133734596 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.9799517334594 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -1774.21271237686 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -58.4137747523712 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.20145821898421 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.70789271674463 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.85322902988707 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.13972146810740 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.36044215722181 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70359030573214 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.492862194664449 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22701967779350 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.50690920624417 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.15606807556263 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.11949893577372 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89322914514683 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76215877592618 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14226541202535 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02585868325387 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.1222690981772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30914622425361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.5632110749830 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.25605399614650 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.1834856174426 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.6806987440441 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.76683189132646 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25738598376849 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12244054053882 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -99.8291415745978 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.97859576639109 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.1516380396964 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -223.034369191711 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.84818114997511 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.18113822069726 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16558647664006 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.39178584651150 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70682019354453 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493029483085004 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23335544694012 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.51597142913880 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.16613881916164 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12079008806721 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89483659025769 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76260330925357 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14224265085689 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02604818116445 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.2078444919750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31899830535563 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.5827028952031 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.26697075109144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -56.6659538633629 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.7295116523799 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.86765396371155 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -1384.13674787235 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.04513280078987 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.84273162239947 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.02788566288550 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17508423403465 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.8158633721523 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -891.108486681058 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -58.2153660202779 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.18603979465554 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.70821403916572 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.87221795200820 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14081392499918 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.36922548986205 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.70834502299019 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493195349373240 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23163440677177 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.51427631704779 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.17814068731916 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12213061782413 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89661269476648 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76306657447390 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14223299124065 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02623538315433 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.3434023955798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32650586761572 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.5432244447640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.27801101048913 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -58.3460110333633 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.7005594933495 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -116.683608692916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.55544188074246 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.51161455951367 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67232684731300 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.99373215377825 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27855889195671 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11668953216393 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -93.1068063287661 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.95223396643872 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -12.0547473747396 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -199.550507957183 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.85196201541524 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.20565577358018 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16729227721315 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.40087536133470 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71141551739480 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493357803964543 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23805051404462 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.52367737179046 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.18754759267556 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12336908169318 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89813896765998 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76348888557271 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14222345419685 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02641949148588 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.3619598721313 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.33295047834716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.9059094381578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.29949793823140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -60.2082450485128 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.8317905523506 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.78017779302381 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34089559444170 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17033741924306 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.6808824222595 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -618.750858751176 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -57.2932160599491 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17708896737536 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.71264968082743 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.89586403322275 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14270450099548 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.37816724053469 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71280880493909 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493526993394074 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.23637534447770 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.52225060284803 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.19898244852097 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12466192150716 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.89984164164937 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76393179654551 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14222544760837 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02659944703762 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.4923697631174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.35832927779371 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.2373596446710 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.28177633546389 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -60.6114454117392 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.8281810159230 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -163.742419053777 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.51117165260253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.49564835492442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66391589213305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.10568847770770 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -204.640760361079 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.28981442446392 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.95039371465209 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.07208183105928 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13913820529846 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -82.3587841569302 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96390245756971 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.8720401791568 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -173.098161663484 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86533538837344 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.23432827008898 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16999260071218 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.41007363700996 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71571359236836 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493688506132881 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24283465929238 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.53152925846541 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.20787181339429 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12585778140230 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90129881892853 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76433492702139 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14222619915073 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02677480306247 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.4505860529350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.34783737513780 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.1544446322926 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.27105821015850 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -58.2292851918402 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9135240879706 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71551064593999 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25763811383591 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16434420719002 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.5778544329352 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -515.964713576406 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -55.9526527128980 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17215259382432 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.72039901090081 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.92462855185623 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14547946239269 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.38755886982319 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71708244105321 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.493879637974063 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24125954430060 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.53015616972208 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.21885079598331 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12710742376242 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90293369641388 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76475935204885 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14223715205856 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02694488120246 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.7196550588258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.34777628365384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -21.1735239998834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.27931600974393 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -58.7088332951740 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9033135042288 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -237.565532605436 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.52432580434199 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.48235081641674 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65909202263962 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.05182535539505 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -493.268445930189 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.21977696307269 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.91925992281231 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.04627859071373 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13009127285240 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -80.8922144671515 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.95249606934287 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.7922262875688 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -162.039301769462 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.87395751938185 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.26457466023570 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17295210332406 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.41946500636922 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.71992356608916 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494058642108644 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24777768275196 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.53938654727569 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.22729564758700 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12825684784817 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90432185871962 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76514433133901 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14224554060283 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02710949781992 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.6293880365440 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.38680988747798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.8473618417836 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.37243816282623 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -56.4099148831323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9528107882382 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69590752699072 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25442133062836 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15949607979065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.4682397245058 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -435.047023207651 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -54.8550115849980 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16840885400219 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.72815858672555 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.95149632525581 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.14843411481894 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.39657416042250 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72120285584327 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494264263807146 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.24616706286019 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.53779092488809 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.23787334213405 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.12946212849137 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90588811776272 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76555083317116 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14226285768005 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02726815370993 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.7274900443006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.38853080114623 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.7117463611151 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.37604141177842 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -57.1592310969915 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9221894042758 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -263.831296905706 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.56620165939527 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.49744026909861 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66551104789230 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.04400415654258 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -576.075508827655 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.23593603563361 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.92711338216601 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.04659413756795 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12775889532523 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -77.8364485010729 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94731390879350 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.6992597186605 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -151.727605144054 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.88397078908404 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.29371733391282 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17611566101397 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.42852768170939 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72397912111307 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494454793992255 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.25267705151633 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.54681808827489 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.24593619046839 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13057292256440 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90720948519892 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76591810401361 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14227652950588 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02742082090834 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.6334400181684 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.39735539911291 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.0288665631771 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.39264725026616 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.8763281264530 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9888722183899 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69456358567899 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25607561395300 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15893381458222 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.3511970115474 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -372.719178362913 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -53.6029850452649 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16655713895198 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.73723360224385 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 7.97822913300530 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15160100966546 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.40541759598429 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72518963946949 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494670904898750 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.25101661599015 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.54494810723958 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.25614965393931 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13174272408778 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90870990269577 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76630714553463 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14229820244257 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02756714146935 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.8298653615745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.40789193474011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -22.9852069030295 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.40032063994173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -56.6438909292759 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9530137722989 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -258.591209830221 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.61318690238017 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.52084066514056 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67533702191608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.04985948050008 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -583.619802515763 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.26226501170637 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.93980972171924 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.05048331766532 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12815502969305 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -74.6500585967167 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94496521916659 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.6069248559646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -142.835214418241 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.89500699822363 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.32283039098985 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17947068101772 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.43745743077789 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72790919151230 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.494870284849378 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.25751157352402 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.55375699732964 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.26384428381469 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13281855370683 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.90996430784179 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76665653801468 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14231529285688 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02770721172701 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.7444611223312 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.41716918058920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3126433618975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.41324000016572 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.1342212404977 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0126300750549 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70007227914383 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25915055558610 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16017489904801 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.2387817892624 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -327.242199066679 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -52.3529899750247 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16593726285350 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.74701171145819 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.00492253660050 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15492876499848 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.41415495632002 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.72905896877389 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495094840525088 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.25579793538616 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.55161407331548 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.27370201227696 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13395310066594 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91139729369252 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76702734195080 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14233952591549 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02784081317650 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.9448925542373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.42351311676243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.1210800660557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.41666791303954 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.8891347208346 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9748011898013 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -239.224962779287 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.66065990219838 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.54758604772471 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68657787497471 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.06177896593390 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -557.073414253869 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.29184185095882 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.95412520122476 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.05578084968824 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12981130801868 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -71.6771552150671 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94422518729299 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.5191264061476 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -135.277121713923 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.90659891079646 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.35170349806482 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18295175650311 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.44626291468975 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73172617479897 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495301378506552 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26227288235711 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56020908980090 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.28100769089934 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13499470503605 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91258321125237 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76735815354990 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14235839200887 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02796816244708 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.8263882259305 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.43103837830341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3107003892571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.43772663992373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.5831914931100 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0395222153188 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70912483764673 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26286259554262 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16234028754282 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.1333228811826 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -293.279797283962 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -51.1605085009552 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16609100185091 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.75702224116106 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.03129849036879 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.15835273299073 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.42276256297114 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73281934342820 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495532931173190 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26050138543815 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.55761029526901 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.29049522392687 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13609468802624 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91394832139407 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76771025344892 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14238373453256 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02808908663797 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -13.0286665378118 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.44196756043279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3259550123202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.44092206984876 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -55.3828531559778 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0031739279083 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -216.435085292957 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.70734073544455 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.57591336938620 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69849189230767 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.07707116610162 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -517.301588715109 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.32257979958205 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.96907376257560 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.06182943401989 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13219820767437 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -68.9967769085040 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94430400265020 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.4406304117490 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -128.821196735163 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.91836218022949 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.38007673582790 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18650111606572 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.45491846610012 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73543726435126 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495745351534068 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26695066118640 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56597401789678 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.29744631641993 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13710112470190 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91506645691910 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76802224595654 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14240312041127 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02820386122791 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.9003045954155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.44603452957964 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4358728491291 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.45887686225016 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.1819425923471 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0696667288232 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.72031980117994 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26696516465017 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16508766452885 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -12.0350257449472 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -267.129659406423 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -50.0429522763745 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16675960653140 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.76699208266964 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.05716967590680 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16182629666296 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.43121911137779 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73647634571269 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.495982523279522 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.26511825389381 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56309215737031 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.30659527008460 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13816611945720 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91636474189219 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76835567765860 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14242850821867 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02831237616409 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -13.1106258778555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.45619187294909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3759541483400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.45959702295885 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.9307561032972 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0314976159758 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -194.782725798656 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.75265603401443 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.60487984641058 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71063793751528 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.09446030177922 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -474.761568805392 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.35365438466541 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.98424024780289 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.06830828533521 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13507122261631 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -66.6159403281912 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.94507257798396 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.3674672977874 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -123.286153809950 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -8864.45128786196 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.93001981404044 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.40779078209905 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19007840043063 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.46340305882668 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.73906558275992 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.496202283516827 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27154932647253 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57126458443941 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.31320810309661 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.13913656450093 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91741593995806 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76864886986143 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14244749846566 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02841497971132 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -12.9589212960669 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.45823035483257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3842304221780 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.48404185889518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.9825367170684 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1017877732290 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.76286780228833 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29204896722421 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18419644628250 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.5718726215140 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -198.577800111775 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -56.6652204712987 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.13769611453621 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.80181934181385 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.09381570640392 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16386219166440 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.45019651802444 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74314844830354 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.496493619211068 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27076791512262 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56838347910816 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.32217698814075 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14020247795070 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91865958782862 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76896210525561 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14247010319447 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02851137927451 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = -13.1702541459607 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.47293157360173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5109510842094 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.48481143057379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.6287573277886 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0573232389754 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -161.295204810618 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.80561522002419 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.64409351983690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72755503207505 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.13615929185303 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -337.351778119377 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.41993571817325 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.01592829819558 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.08380980862671 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14553000723363 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -61.8858862595726 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.95814861894869 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.1419377702278 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -119.519305087943 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -3290.73821383995 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95227909918881 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.44934727200266 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19604817347169 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.47510599116113 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74356240044786 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.496795275970989 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27686310917384 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57577371338914 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.32864671428668 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14119266997603 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.91966755015533 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76923895916578 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14248858899796 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02860193683121 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00015011932159 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.0193219701364 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.47280836132337 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4937075472918 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.50283165670243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.9213335952098 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1371008677529 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.78596054594869 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29981120685486 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19100864733329 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.4636217106663 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -183.959209865181 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -54.4435433534191 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.14076176328471 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.81570546125263 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.12362075027456 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.16860527512968 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.46056759605113 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74736839460713 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497062388222980 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.27579000477044 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57250046074132 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.33749345683891 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14223778776535 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92087269675268 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76954086009286 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14251300220683 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02868691437703 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00030721281314 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.2204050564243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.48240336444079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4434677824470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.50158413242056 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.4106302800951 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0871997253819 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -145.164761313463 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.84754925874380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.67539691897208 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74146121134358 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.16302362282322 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -312.802407746821 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.45807515009121 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.03413538606111 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.09264230364789 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15044383895390 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -59.8098917179543 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96078832223130 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -11.0453476565647 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -114.665590739383 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1957.24756038324 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.96598509182013 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.47973550870220 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20027491658067 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.48471889814734 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.74752119957512 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497331378266070 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28163906165784 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57907617118722 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.34365288438840 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14318568667170 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92182471414593 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.76980489910077 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14253277470134 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02876608414401 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00045190529232 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.0655512409961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.48633315208652 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5824966459725 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.51851706603958 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.8150006924594 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1765445489148 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.80380940343335 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.30543950559433 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19548459156828 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.3825366787525 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -173.990986230231 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -53.0146356434490 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.14331126852261 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.82653976726374 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.14941654088817 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17239505084821 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.46946246307762 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75113320663784 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497578547889688 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28036345764966 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57565794691349 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.35213297189203 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14418160540059 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92296497538192 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77009134674532 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14255714427154 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02883961346910 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00058440994842 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.2792455433012 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.49423459002726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4605151372618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.51721200129765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -54.2020942812242 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1188042492727 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -133.227470471103 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.88676888319202 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.70465277115211 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75432121402129 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.18654187495062 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -294.178339844303 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.49129816439116 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.05018604683101 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.10038417312855 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15443759690106 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -58.1333040349192 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96277001155582 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.9777095668251 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -110.594002338403 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1440.81945370847 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.97771518715159 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.50690513931925 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20399675305323 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.49330750576081 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75113634483391 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.497833774157567 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28608477272800 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58198447885387 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.35790202634213 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14507985635762 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92384826734040 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77033802475871 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14257562423100 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02890817465552 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00070495976761 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.0992809084835 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.49676422355353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5527269407101 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.53904110773539 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.6724693972718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2112076404598 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.82041840177492 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.31059168484485 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19951739839015 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.3109742710389 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -165.934341145763 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -51.8820242486604 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.14573670766929 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.83653500986626 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.17350197235023 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17590949881710 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.47766844371826 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75463554826258 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498072479732406 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28468832476019 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57843819228286 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.36601255735464 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14602826976329 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92492023047231 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77060627440433 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14259784098287 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02897166932125 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00081399039871 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3201201610969 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.50812706012908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5288278445123 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.53774507438633 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.9826828380939 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1503164986223 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -123.326499248484 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.92449281571693 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.73296753222832 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.76666761624364 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.20912792553133 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -277.253116545439 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.52263533829280 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.06543078112349 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.10778782984002 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15818921716422 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -56.6610204298998 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96481972331922 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.9196682102456 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -107.113146065414 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1161.31970124323 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.98866332001007 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.53247073396509 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20754246339003 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.50137275211491 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75454369685423 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498321755307572 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29033247727174 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58466848573828 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.37141809801909 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14688155409537 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92573646553577 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77083446003875 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14261361311452 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02903094088993 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00091113750436 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.1337590725548 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.50669579538095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5051943898921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.55969245605898 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.4894059129916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2443523746222 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.83661839309448 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.31551122472880 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20342866170168 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.2456292217086 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -159.127199362369 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -50.8814359309455 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.14821485170267 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.84614543839026 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.19649606365454 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.17931246657735 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.48547754507779 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75796597853685 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498556637211953 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28884914064998 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58083982589344 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.37919062910777 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14778793471142 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92674403786128 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77108440054138 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14263280819764 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02908573520559 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00099764972228 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3510631792825 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.51956955092374 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5603310381286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.55697999523564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.7197845338746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.1795305882117 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -114.883287825526 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.96074526175671 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.76049715746959 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77862217242669 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.23130607661425 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -261.860424515187 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.55273822813368 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.08009646242030 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.11499918279272 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16188780246770 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -55.3559664308871 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96705529922422 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.8672754979797 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -104.087679002710 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -984.715091721897 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99916241368492 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.55689210187430 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21099674290569 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.50909719241876 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.75780170984413 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.498802846688975 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29443584921492 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58690930046625 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.38426730767893 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14860156871211 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92749778955635 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77129463649085 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14264540473669 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02913674707575 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00107359806539 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.1667629941561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.51785842322113 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5437145050797 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.57556117673237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.2642162695674 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2772924146719 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.85262933225209 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32028446818306 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20727897825124 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.1853087422266 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -153.263319717935 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -49.9739744826616 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.15076878065316 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.85548826414670 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.21860464050967 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18264677971114 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.49300188751827 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76116543125196 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499035896177248 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29288114803340 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58295566171467 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.39173470951169 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.14947029965663 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92844572580741 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77152713082518 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14266136454466 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02918365853648 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00114014501886 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3863962469694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.52796718139920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5286487874740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.57139426724056 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.4390649553112 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2066362171992 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -107.604864831764 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.99557606866056 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78728870205252 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79022440886915 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.25322309442663 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -247.892515532172 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.58185959260416 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.09427973020862 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.12206139762129 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16554257561339 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -54.1721609307987 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.96946181095491 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.8190201609198 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -101.421922806383 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -862.506047427605 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.00937114762522 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.58027564399814 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21438032401566 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.51655876637472 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76094160554061 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499280199441693 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29841935032428 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58856547798473 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.39651127592729 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15024755251946 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.92914185650999 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77172037845305 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14267072112494 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02922714944522 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00119748939481 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.1959811792502 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.52862775630456 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6014662815127 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.58897503423723 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.0081597436253 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3085861831551 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.86855844441428 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32494983146609 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21110969145753 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.1296414466163 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -148.156604771638 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -49.1407409644082 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.15334018156850 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.86460752417076 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.23990982044142 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18592326855112 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.50029694552282 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76425933555818 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499512454262808 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29680230343961 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58448388447783 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.40370230659172 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15108126436887 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93003491662721 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77193655723088 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14268354556498 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02926689763000 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00124676595717 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4257650927862 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.53687508403286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5090635491799 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.58497743070907 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.1658859684530 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2326694991685 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -101.306161496080 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.02890287578720 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81326802120594 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80147377354088 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.27486774821667 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -235.238656131246 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.61009912979556 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.10778995800987 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.12895710109969 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16917101975976 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -53.0902896116347 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.97201821020753 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.7741663043521 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -99.0493924987584 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -772.810927065480 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.01937345193431 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.60281659482913 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21770740924028 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.52380549776163 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76398578380418 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499755190343446 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30229649718546 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58997050664551 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.498980090391948 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.40820391098007 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15182455476654 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93067798557406 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77211407161265 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14268987065859 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02930356796687 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00128801366460 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.2202314468141 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.53737379971579 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5856626334818 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.60452718612566 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.7553594994680 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3372524669463 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.88430139415567 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32951362105084 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21487853797980 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.0785276598278 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -143.665195923107 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -48.3706695932816 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.15595861861578 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.87360478277380 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.26049220498577 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.18914291614434 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.50738062838518 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76724023749324 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.499983365430084 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30061871184062 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58582466238153 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.498248150126746 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.41517572886052 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15266323644207 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93153075995034 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77232384597930 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14270167338758 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02933693933638 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00132218029779 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4574007352426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.54726172235825 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5320964659430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.60097730507004 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.9029516492629 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2579178146043 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -95.8349148199734 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.06071769193430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83843252809793 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81236800209289 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.29622306228671 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -223.845580653394 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.63747528187704 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.12090593933644 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.13571165477878 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17277729609461 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -52.0996347074187 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.97469349407593 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.7324695706173 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -96.9233699356222 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -704.097486375623 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.02917042432578 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.62463407803085 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.22097196327569 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.53083672261993 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.76690725497480 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30447489097995 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.59118940590506 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.496881180321051 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.41949577702553 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15341478094550 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93214126635410 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77249617384072 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14270783792208 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02936766723019 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00134938544378 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.2411366412968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.54500520214716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4994670064922 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.62236990597914 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.5075855697490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3642355222300 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.89984257085401 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.33398747192318 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21860042121849 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -11.0329774782871 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -139.651498526489 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -47.6581433699885 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.15859919925493 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.88234757891006 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.28015826616127 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19232703366488 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.51420689074465 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77045906140232 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30080722352110 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58680189152733 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.496098864332444 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.42635204833885 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15425454109608 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93296988457405 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77270138810412 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14272031382632 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02939544816953 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00137076002895 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4675840735374 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.55605982417724 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.5620494172481 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.61850337019887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.6521372792458 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.2823928060816 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -91.0489310194568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.09106399582603 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86278869864635 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82291457482386 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.31739345607381 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -213.439509630672 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.66425068023071 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.13370211990693 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.14235186217286 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17636123979316 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -51.1736767876558 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.97742624289353 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.6936457113918 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -95.0009053713956 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -649.560595461470 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.03861974995793 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.64472699933692 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.22416662113088 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.53762087947357 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77060044658120 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30406862643088 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.59142962104986 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.494709050849034 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.43057973318566 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15499834334635 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93356110234843 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77286986590167 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14272795661338 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02942085901443 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00138636512915 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.2726921271582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.55799125799387 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6765320538278 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.63223106126331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.2264391313518 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3910133301142 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.91517658010187 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.33839239028874 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.22227242788124 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.9892499923157 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -135.993467303508 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -46.9937988376506 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16119587572544 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.89078601034202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.29825884066505 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19545587179397 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.52089699623279 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77439211196433 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30013189188569 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58663239383629 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.493920539852596 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.43734365904409 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15582823277135 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93437113366026 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77307222775783 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14274244254077 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02944355289601 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00139732803910 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4914152217910 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.55918937826646 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3935914394038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.62736226789182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.3890881428062 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3050288239367 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -86.8292713360937 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.12006287702027 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.88636130786812 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83312224198408 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.33828679439075 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -203.954908866474 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.69044470838526 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.14620227037469 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.14885314676785 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17989974413641 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -50.3032639200291 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.98014439724076 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.6568207745033 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -93.2427164063707 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -605.026417312959 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.04786851074709 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.66389753067168 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.22732461623086 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.54437806118845 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77465706253354 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30323249423156 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.59083735342665 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.492520188029868 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.44146032058241 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15656084720123 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93494297835443 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77323802766069 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14275226499241 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02946398461988 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00140337404130 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3145246873960 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.56621917951199 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.7028375614456 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.64238306737615 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.9412615058479 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4187690913971 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.93026459806406 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34270305219725 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.22585213535944 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.9472234600846 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -132.651377314869 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -46.3714231304367 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16375067663835 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.89909118715807 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.31562256464442 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.19855263029866 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.52757632466790 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77852062921940 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29917360211931 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58573952379032 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.491736825152930 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.44811332899532 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15737922069044 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93573371296728 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77343784800974 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14276899405411 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02948203094219 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00140557777015 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.5297645699400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.56764309300360 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4512886848911 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.63798821129322 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.2728951325551 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3325837333204 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -83.0781194995682 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.14774940300704 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.90914960134373 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84298860426599 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.35879386271805 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -195.360378875487 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.71594258928230 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.15836676169780 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.15518384849776 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18337023155380 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -49.4873264529564 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.98284299741303 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.6224734708830 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -91.6131494103994 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -567.882056098556 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05691617375730 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.68267571416802 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23048308730270 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.55111078638278 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.77883050105402 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30218125818407 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58966756623854 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.490332061907136 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.45209817879957 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15809949660385 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93628563375812 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77360096255854 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14278102502389 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02949803259986 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00140370714440 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3161202662365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.57339047109335 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6974812461653 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.65599387094464 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.6994351721410 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4402583996653 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.94504527488143 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34690352707495 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.22935261675289 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.9069465454526 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -129.596667969862 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -45.7828508152774 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16627277677536 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.90723780456486 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.33243627868595 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20162012150188 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.53422323728243 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.78272375768819 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29803845589533 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58433885501376 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.489561433187808 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.45862351800125 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15890545072851 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93705684954830 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77379816169731 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14279995677249 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02951179808080 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00139840821872 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.5404564292151 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.57474317340763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4438693419992 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.65056720816095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.0849858182447 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3553576883260 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -79.7420965015760 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.17414875653131 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.93114161844377 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85251059840140 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.37888806960363 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -187.535101650203 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.74074434988156 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.17019448672042 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16133805229642 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18677343273987 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -48.7210072614148 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.98552751827577 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5897968597646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -90.1124240525548 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -536.525588369111 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.06576987308477 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.70094117766116 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23362280195103 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.55779561737918 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.78305400491020 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.30097888700968 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58783846500074 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.488157231403791 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.46246623627406 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.15961193254814 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93758852078631 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77395841666488 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14281410742393 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02952375886209 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00138949933031 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3320474683302 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58100814201122 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.7016196594939 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.66837815616866 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.4599432088734 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4631710873909 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.95949869436576 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.35099575236449 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23278033548122 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.8683625084411 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -126.798907538305 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -45.2347734007364 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.16877163243758 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.91521804997136 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.34872082588145 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20464856093887 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.54081986835097 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.78696019800946 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29676873959572 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58229107247647 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.487400973317111 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.46885516818072 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16040376080527 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93833964407723 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77415270061298 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14283507916808 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02953381993744 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00137788195671 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.5576342323014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58124286252564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4276705763679 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.66209040308173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.8853684056604 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3774164069207 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -76.7680863715329 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.19927991027244 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.95231638413873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86167527977999 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.39851616797888 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -180.369018844520 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.76483686041134 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.18167980035684 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16730879894277 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19010562986221 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -48.0006296214703 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.98820072857911 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5585917832898 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -88.7278122054673 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -509.731865491061 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.07446151184614 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.71867490758855 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23671931174868 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.56442266379364 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.78729826228919 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29965974389860 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58537217390366 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.486001532321980 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.47255232561277 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16109540026766 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93885095578804 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77430982450651 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14285114834179 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02954231456870 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00136333424275 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3496349902171 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58763873020885 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6907716737186 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.67969506236384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.2192488857669 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4851265999823 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.97361189949345 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.35498045862163 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23613079977378 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.8313329037754 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -124.225900947747 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -44.7232664515746 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17123389718118 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.92295091821823 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.36443214971166 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.20762552495396 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.54734322798496 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79120596396746 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29539764687396 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57963279599934 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.485264721319148 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.47879957544007 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16187224328974 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.93958191345956 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77450093269665 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14287393961584 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02954903411325 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00134655382037 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.5748652288809 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58741728620343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.4127524778484 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.67307156378952 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.7060549239272 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.3993941642961 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -74.0951396936259 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.22322450077541 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.97271991134556 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87048387050490 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.41775782570343 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -173.799009805701 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.78823488434290 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.19278198587300 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17309715406122 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19336690844880 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -47.3226056221953 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.99085263017106 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5287382339610 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -87.4460841426458 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -486.573803569403 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.08300626360981 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.73589630721280 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.23976724005190 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.57097701676640 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79154261105925 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29824834631730 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.58261212615871 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.483869978050332 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.48234531048160 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16254773147639 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94007268545570 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77465461450707 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14289170119368 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02955440875111 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00132670076142 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3666528453303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59380624039791 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6770621399740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.69042468425212 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.9839052362881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5059525824721 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.98736028186056 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.35885629032090 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23940426991840 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.7958695470962 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -121.857001546591 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -44.2375315756020 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17364796666677 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.93049934802696 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.37961913997952 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21055042668817 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.55378215668147 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79544452030335 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29394445011355 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57675849992776 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.483159496004072 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.48844868266295 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16330871307469 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94078351867870 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77484226896969 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14291609447410 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02955826832073 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00130506851575 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.5907047326308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59320019665223 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3964154859161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.68351003806448 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.5337043100809 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4205415568387 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -71.6816291443050 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.24601409934936 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.99236587584627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87894654084347 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.43651271428261 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -167.779554858158 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.81094243430385 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.20343550466329 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17869729042228 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19655213363080 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -46.6834363456639 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.99347459102402 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5001819446105 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -86.2572357529769 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -466.368961939685 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.09130406484056 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.75256484043340 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24275784947169 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.57744142500783 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79577146604139 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29676480220938 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57964330605893 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.481776135905745 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.49184030411941 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16396756091428 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94125391149831 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77499230838639 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14293533522532 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02956102242431 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00128165909089 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3833668149447 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59961438086109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6626608299327 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.70059871240859 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.7538861050591 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5258209491797 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.00058155814415 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36262561544022 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24259930876858 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.7618374429095 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -119.666893103290 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -43.7759951890378 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17601317831042 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.93781414756858 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.39427671474521 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21341699660249 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.56012678983641 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79966213197389 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29242848999811 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57367026468468 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.481090526977104 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.49779783184415 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16471211443518 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94194490989638 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77517637732079 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14296113282675 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02956247919969 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00125676815682 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.6056823261186 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59863274853625 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3791469565639 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.69341493178739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.3696586084477 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4407962454748 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -69.4172233798273 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.26836738211072 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.01173313878911 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88724502038240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.45494755149415 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -162.241239185572 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.83300321110312 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.21378780792933 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18413488312526 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19966289799263 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -46.0808678235975 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.99605616264415 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.4729114146832 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -85.1529628308326 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -448.608070720115 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.09938322696743 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.76871029913436 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24568927065037 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.58380953122550 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.79997460378133 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29522326466066 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57642642272099 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.479731089251200 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.50103639499753 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16535390648969 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94239542726621 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77532272799351 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14298168873316 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02956301172440 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00123040773064 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.3996418472154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.60504030054399 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6468965727117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.71021562770805 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.5325565438546 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5447167589425 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.01348290389829 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36628536332100 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24571533537888 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.7292334603538 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -117.640672965949 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -43.3379262619394 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.17833035066043 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.94494879439263 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.40842441284324 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21622820329000 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.56637273964451 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.80384923342077 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29086073297010 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57033768939144 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.479063006270206 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.50684518172068 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16608118845932 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94306671423557 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77550303394580 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14300869994301 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02956242095606 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00120274449341 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.6196255007532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.60374026256615 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3614334713306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.70283708976978 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.2106516792049 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4602562248591 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -67.4795426412786 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.28859871504064 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.02961520560067 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89496698061663 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.47262623370035 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -157.184488878216 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.85432320202510 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.22378479937060 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18938086029497 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20268905981784 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -45.5138524623315 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.99859948736156 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.4468990653255 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -84.1273812688759 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -432.917301351149 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.10725346027148 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.78434847391288 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.24855955662666 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.59007564410922 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.80414276684612 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29363328884248 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.57288495441718 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.477727732680149 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.50993380344808 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16670569817545 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94349790591764 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77564565377362 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14303040453901 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02956096321587 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00117394756179 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4158636067872 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.61013464056858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6306815604576 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.71932933383890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.3147592519182 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5627179411072 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.02596093908461 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36982963654191 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24874670018454 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.6980112713814 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -115.763913939463 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -42.9222033223402 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.18059489535037 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95189216207965 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.42206458283562 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.21898309592366 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.57251451937305 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.80799829821920 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28924946880590 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56670526563938 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.477079190876941 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.51559777705585 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16741568822048 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94415016159353 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77582219656825 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14305847762436 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02955851587903 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00114420215460 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.6328035188902 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.60854651660564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3434011363498 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.71179773191249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -51.0548569220249 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4788867221653 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.7149386986311 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.30783922580289 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.04676542234579 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90236505980441 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.48971873267779 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -152.522525392336 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.87495636020303 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.23345653911095 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19444825834434 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20563288046608 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -44.9791635465703 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.00110100336189 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.4220500074572 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -83.1730589726768 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -418.965897473025 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.11492131264347 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.79950864707355 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.25136041889910 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.59623598482580 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.80827067144157 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29200616548024 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56887400698135 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.475763056044388 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.51854069334140 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16802298819597 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94456274345592 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77596110126262 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14308118412618 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02955534248726 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00111350682366 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.4322039076289 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.61490882827348 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.6140988584118 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.72795758940417 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.1003291551034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.5798006518813 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.03804746930546 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37326282293887 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.25169318841369 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -10.6680762317409 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -114.020262710183 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -42.5271328427072 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.18280716935915 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95860414931426 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.43524494491400 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.22167959443478 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.57855180643066 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.81210600140054 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.28760604980413 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56259888325120 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.475135889146566 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.52406551012619 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16871587686280 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94519675248069 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77613393257014 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14311019161281 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02955124285509 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00108214256574 at nshe,nfasti = 38 5 %fp_imp warning: RF renorm adjust = -13.6452925774735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.61306582306013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -23.3251404690428 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.72031288743322 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -50.9043359032168 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.4967517696602 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -64.1018240571800 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 7.32613477616171 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.06321722174904 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90945960546382 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.50627759504517 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -148.218147118149 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.89492263561140 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24281306730265 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19934384479267 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20849631013239 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -44.4816426314128 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 4.00356105364203 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.3983188252109 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -82.2830793246410 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -406.484034658865 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.12238420362846 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 8.81420491565769 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.25410192827719 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.60229065446533 at nshe,nfasti = 15 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 16 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.81235473802364 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.29034915318588 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 17 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.56466193502349 at nshe,nfasti = 17 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 18 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 18 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.473838765433286 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 7.52686625966126 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.16930605393786 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 3.94559122719294 at nshe,nfasti = 20 5 %fp_imp warning: RF renorm adjust = 2.77626914518827 at nshe,nfasti = 21 5 %fp_imp warning: RF renorm adjust = 2.14313377064917 at nshe,nfasti = 22 5 %fp_imp warning: RF renorm adjust = 2.02954657410101 at nshe,nfasti = 32 5 %fp_imp warning: RF renorm adjust = 2.00105007999470 at nshe,nfasti = 38 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.758E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.704E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.613E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.593E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.547E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.511E+03 keV on shell 6. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.521E+03 keV on shell 7. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.511E+03 keV on shell 8. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 22084 TA= 4.40000E+01 CPU TIME= 7.89145E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.8620233333333 %check_save_state: izleft hours = 68.0586111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.266E+03 MB. --> plasma_hash("gframe"): TA= 4.400000E+01 NSTEP= 22084 Hash code: 12504474 ->PRGCHK: bdy curvature ratio at t= 4.4500E+01 seconds is: 1.0219E-01 % MHDEQ: TG1= 44.000000 ; TG2= 44.500000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9050E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0219E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 44.000000 TO TG2= 44.500000 @ NSTEP 22084 GFRAME TG2 MOMENTS CHECKSUM: 7.9958678540638D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.61510E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.33968E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 6.34111E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.450000E+01 NSTEP= 22334 Hash code: 116974930 ->PRGCHK: bdy curvature ratio at t= 4.5000E+01 seconds is: 1.0125E-01 % MHDEQ: TG1= 44.500000 ; TG2= 45.000000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4270E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0125E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 44.500000 TO TG2= 45.000000 @ NSTEP 22334 GFRAME TG2 MOMENTS CHECKSUM: 8.0067834870177D+04 %MFRCHK - LABEL "BALE0_SGF", # 5= 2.59946E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.30200E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 6.30342E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.94478399999934 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.54675643187526 q( 3 )= 6.11253290010815 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.8932E+00 8.4489E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.4 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = -22.6624466645285 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.92461148210268 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.73863970877473 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.23064783850531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20672465857720 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 7.17692376137641 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.52717956696533 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.41125485343352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13235779845600 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.04442459618959 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 3.15192624048485 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.61870089050395 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.32277523436452 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.76730127237065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.70633948902158 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51403215675421 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.86699067511816 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.05743041762361 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.60376916377674 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.52523042087054 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08048143921522 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.61299888158501 at nshe,nfasti = 20 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13158 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.662E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.241719178772966 Pqlo = -1.010499165990468E-002 W/cm3 %fp_imp warning: RF renorm adjust = -35.2073244264760 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 13.2386218914088 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -53.5540694682693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.04353598716460 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.27095418340780 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.33589142591732 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.470265854321631 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.65959876324920 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16210919105416 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.24967114979930 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.01699532932820 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.99887245611894 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50854614226489 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.82651566331831 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.56433400663449 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.73370157186366 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.76572105252221 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.45079073673852 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.20930793110651 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.11808061991548 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.70339361665601 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.768E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -43.9227233914188 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63262200624486 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.68301481837383 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.61054915552294 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57698131182740 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.31000659767557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.17708725488090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.21136617272679 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.55956151849725 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.40780990365699 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.47865144977774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71750452330305 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.33077409680409 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.68167017470644 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.90850531558029 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.96835918639542 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.00022788118028 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.65888592334757 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.62995878450484 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.27205706013137 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.14810257371855 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01903465312779 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.66872980977983 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.775E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -71.8181761467511 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -92.1231633976419 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.70783193343856 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.24202797777396 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.84029146897068 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.86330109321093 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14408993473048 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.37123549705563 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.33009418972729 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.33831021655206 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61177732344294 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 0.325282653305733 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.90394509092679 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.23310785210125 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01448362822521 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.00002521389469 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.61847931889282 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.62114899247251 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.33325872861174 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.17001794352718 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04622739166561 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67813955115542 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.776E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.244512481982273 Pqlo = -8.508221739842250E-003 W/cm3 %fp_imp warning: RF renorm adjust = -137.393199944172 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 19.4052303917052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -67.2897149475168 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.76284518504611 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.18744346146265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08738790351491 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.89284302157021 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10896465700613 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.49656611843947 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.36300436641883 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.52660553675010 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.62736882699381 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.87458086544016 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.33409505826476 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.05450763921983 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.00844626687160 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.58572779211647 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.60546919162381 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.38166280050060 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.18652141844082 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04917785841852 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68536786937403 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.778E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.203119985606540 Pqlo = -8.736854876040171E-004 W/cm3 %fp_imp warning: RF renorm adjust = -72.8602270609075 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.5842135502883 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -89.6776895520650 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.66362304146150 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.00016785950076 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.26126051202472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11621955326831 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.87863053496694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.40580107854265 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.96203696926539 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70062710253139 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.39313106896676 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.05706400360480 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.34154379499872 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.10718547262545 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.02806032463221 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.61863748236657 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63173247025290 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.42160116140525 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20005596616763 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06545719469916 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69154284951436 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.778E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -168.187275421812 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -151.105868259048 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.85163476746093 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.28833231038962 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.88851454734362 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.56647188364277 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.98311486058456 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.34409903348472 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.28336565923380 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.59418674456971 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56560160298376 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 0.341772350471399 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.01508653109909 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.59554856394419 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.11022710437101 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.02812404990114 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.61648098021017 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63994030569383 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.45456493375756 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.20921594640462 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.07212492803356 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69374573847723 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245701316129679 Pqlo = -1.045435440653187E-002 W/cm3 %fp_imp warning: RF renorm adjust = -658.789174835635 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.09388971870149 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -114.641815763836 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.45799732982740 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.92702732954051 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75418430857602 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.97801697874590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.99896700161337 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.63284301714494 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.33435797719464 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.84751302693847 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61541901380246 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.23296800787699 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.65453941298717 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.13838768146102 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.03837792647868 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.60022908459276 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.62744446261800 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.48011641339359 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.21600404066221 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06217109369175 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69375205117073 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -49.5339830298144 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.86828325321508 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.98852985580515 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.83829590191568 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.329181235679065 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.26738083549084 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05973852445292 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.04985491588882 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41000282689654 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.26517823685836 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69888593279298 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.42871395675720 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.11222257058764 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.63850642382971 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.18139627352381 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.05588677900546 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63449382525317 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64954548333409 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.49968848235458 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22132629641552 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06866798401630 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69424201936117 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.244838215010992 Pqlo = -7.514426335078727E-004 W/cm3 %fp_imp warning: RF renorm adjust = -106.214805955066 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 14.2293557332223 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -59.6629330303032 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.26269253427099 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.47128948411131 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96453014900823 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.90207175724244 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04588903765410 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.70625569881107 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.34625644537617 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.98311498589527 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61229168392969 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.29009789885087 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.84025827299245 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.18571506719602 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.05872189163388 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.61596248513976 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63702789891875 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.51402424041928 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22470369066152 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05852101015993 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69292009334825 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.133513423496870 Pqlo = -8.379993660886926E-004 W/cm3 %fp_imp warning: RF renorm adjust = -148.737389399384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 12.1159362133112 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -17.7175586849101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.01489416588612 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.36774697406176 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 0.297987132785940 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.497319685618737 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.20217175045307 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05319668374440 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.07895145094700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41694964650329 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.29247881701064 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70031645203399 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.42476815732283 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.13891952829350 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.76303224216304 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.22059043665236 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.07347685292083 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64867954401621 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65784114783815 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.52579305517883 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22733016716304 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.06360533682920 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.69223652735263 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.244980810585796 Pqlo = -3.614527013422767E-004 W/cm3 %fp_imp warning: RF renorm adjust = -116.085234451808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 17.2064626246091 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -56.9531810095637 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.82002231580994 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.48554515319663 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 6.61333773703277 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14465543997530 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.50886685588218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.98593293232416 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.55714518044201 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.31286346952250 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.92053078829430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.58893676677354 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.31493192078032 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.96672912445934 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.21740521804380 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.07315895503032 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63162229687485 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64697397399400 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53265377984088 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22841875281240 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05510091422651 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68993297842668 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -459.478372953135 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.2697215069864 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -38.7788363693419 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.97558453891625 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.49571209579411 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52576594723925 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.341019942889136 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.17013175335115 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.00400200356288 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.06887641241706 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.39937678468677 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.30543622365566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68750470804634 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.43279193333809 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.15975542663767 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.86287001010521 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.24799368189696 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.08575970430440 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66227496473276 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.66543582078020 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53848551469230 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22899580703162 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05913128139504 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68839822944784 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.779E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245073508463233 Pqlo = -4.155071120555881E-004 W/cm3 %fp_imp warning: RF renorm adjust = -163.468582526722 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.36012322878787 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -35.5813380108804 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.39343787505298 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.34828905343364 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06926883258069 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.83173361022568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.03618516351969 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.78769755846975 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.34100478519501 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.11384286096572 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.60555492267397 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.33946824194585 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.06047906695826 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.24503491333286 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.08511156041293 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63579338478687 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64609075010544 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54035804369625 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22901816095448 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04659520155084 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68564694971579 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.780E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.133738954532514 Pqlo = -1.793825357644803E-004 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.205542628111049 Pqlo = -6.851904270131731E-004 W/cm3 %fp_imp warning: RF renorm adjust = -79.3026951655601 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 12.7283417896603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -31.9823181938720 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.90061075120194 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.26061564672870 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.07049590933974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04310621714077 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.14101722927212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41514705119726 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.39039367713032 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69439476030948 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.44504654187440 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17541237189712 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.94064833501629 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.27391065882387 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.09666164010476 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66477995806201 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.66386008781772 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54480066764626 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22934765233577 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05156804231758 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68462199537738 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.780E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245167604336501 Pqlo = -7.160218712544646E-004 W/cm3 %fp_imp warning: RF renorm adjust = -258.585984962259 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -68.8906542157517 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.47444604645992 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.41025103956135 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 7.55419431942461 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.69590932969268 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.17371282052349 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90537910842703 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.38590019869887 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.26699166278045 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.84375790084634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.55020407147357 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.34410413588751 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.11635060218030 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.26174883221851 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.09264178234012 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64503511125177 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65104843915155 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54427664027701 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22874445828021 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04420306232373 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68225948733834 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.780E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -29.8986438519055 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.15007328962475 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.38944617288304 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.57599129771903 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.36933193353917 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 7.75870444487881 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41734030314698 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 6.07636869081840 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.92047640761482 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.04325766048267 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.35493536454472 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.32979976189302 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65608862721381 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.44680540634985 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18493989956826 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.99433146198923 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28491795507666 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10157041230977 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67728480746785 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.67188127032080 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54540049711677 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22776452911693 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.05100206754170 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.68081343741046 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.780E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245133514745843 Pqlo = -5.614670852832475E-004 W/cm3 %fp_imp warning: RF renorm adjust = -73.2586669118794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 15.1936417911952 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -39.8808183924984 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.85436516077848 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.458352698203571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73571986159935 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.15983180905314 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.89082543566016 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.01673271650881 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.83648856050461 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.33356659155901 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.17580751964638 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.59569815454653 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.36330987102745 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.16280811150832 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.27713072282860 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.09904876797181 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64253191249639 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64478058628669 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54156597413771 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22670553115326 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03542281320293 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67787774038192 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.780E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.205621860760305 Pqlo = -2.963681240917746E-004 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -24.1540253421046 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.46738464959921 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.04889111667412 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.03917709508130 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.00520671821396 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.15016459713727 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.37884731878363 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.42618093682723 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67648349726698 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.45749155396121 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19192012812329 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.02734815861037 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30275407957451 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10884891262876 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66923496508363 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.66164886972275 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54410165163209 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22673101418825 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04147717205312 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67740815830285 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.781E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245171260633291 Pqlo = -8.280642697840808E-004 W/cm3 %fp_imp warning: RF renorm adjust = -115.827701333834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.30544881366393 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -67.7211132710307 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.79073690730317 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.07033585314837 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 7.81171187725546 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.75351256700998 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.42226407001669 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91472821476471 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.56166411291052 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.27586720114729 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.99207449783296 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.55131087580002 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.36667348281395 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.20253403730817 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28824742763317 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10351577953195 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64630150917358 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64674253074295 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54169161071035 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22598141608206 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03402247158931 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67562175938635 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.781E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.133554512147088 Pqlo = -7.076277518770660E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -47.7576789847008 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.38388099286736 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.88042881197726 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.86451346447241 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.37100000374609 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 6.00310726796052 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.94291834714279 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.11703355319743 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.34046062681233 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.39969712467227 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65159765367856 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.45938360454929 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19510274773556 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.05340197016063 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30892003105011 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11143905028272 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67431457504643 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.66434834235738 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.54159762717397 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22502555387450 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.04028667179004 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67489301871114 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.781E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245133192131420 Pqlo = -8.067441273495597E-004 W/cm3 %fp_imp warning: RF renorm adjust = -1226.10634771745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 11.9959035840840 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -61.4229376833489 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.57361834917380 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.44596924682103 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.46553402453121 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.53098665050676 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.95538105031507 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.65836314277328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29758158415599 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.06904468537271 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56389620505621 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.37052802157873 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.21180638465360 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.29524671004442 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10667062593896 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64381928574382 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64188237523311 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53737140800662 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22409732674117 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02864261092493 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67269464076671 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.781E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.205559048035072 Pqlo = -5.752258391459775E-004 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -39.6871447045897 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.99258542170491 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.29385486996166 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.32728358181661 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.98848873892187 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.94733148727934 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.10808711398738 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.34268347909803 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.40644552035524 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65061559232911 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.46372427969719 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19698867459245 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.06708660402480 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.31697835885088 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11475871389140 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67050242163455 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65904706674525 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53845008815245 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22369808735440 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03526379756113 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67244760776186 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.781E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245138676576605 Pqlo = -8.650354795702262E-004 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -71.3197672899978 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.61018064217345 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.95811012263436 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.496125837701001 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.82742554349835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.71835070982991 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.41177875371564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89387684496293 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.55666657534517 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.25970524478088 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 6.98963786526590 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.53550788422202 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.37271760700486 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.22987557674090 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30079179015529 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10896713934410 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64466269004018 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64139375691919 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53482920549053 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22292294811596 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02684943698591 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67076131917387 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.782E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.133396950869717 Pqlo = -1.452165382522764E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -29.6789581077560 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.10767479956702 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.58600678927562 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.54547530795119 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24880419491989 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.96616576408110 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89831426487767 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.07235397387535 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.31678984998107 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.36627631402290 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.63175250690833 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.46399452244763 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19593402102783 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.07375798287091 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.31970969140205 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11603154482936 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.67216399384575 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65926340942174 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53494380842281 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22215430197962 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03388926432272 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.67046865681450 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.782E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245094048248141 Pqlo = -8.355562595138417E-004 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -59.8550049693849 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.73095308985326 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.36644077753379 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.10206857787574 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.49785332533876 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.93175841855532 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.63292717902331 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.28018251973085 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.04943716810151 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.54773199693863 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.37433389510565 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.22983528940827 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30428632048502 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11065680283687 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.64181726171544 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63730351910525 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53055972856574 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22141164396073 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02300732797311 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.66862574739612 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.782E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = -26.1145821664499 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.32453034547726 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.55184680819393 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.62891988459108 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.36869014304997 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.213712473895627 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.461279948500338 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.246091216161917 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.94470208600552 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91007324217701 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 7.07421391280474 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.31965095815320 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.38081680141651 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.63105100911415 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.46681880793419 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19691966436189 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.07990270786138 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.32390371436279 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11782739010198 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66897485068153 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65533301455444 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.53176370800867 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22105203160778 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.03052196712900 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.66872261226685 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.782E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.133397717857854 Pqlo = -1.885533333759101E-004 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 9 Pich = 0.245075444149769 Pqlo = -8.627635658935355E-004 W/cm3 %fp_imp warning: RF renorm adjust = -142.382404438926 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 18.9876271334989 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -38.4350997115358 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28673340447968 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.48572141488900 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14761176395102 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.75056147353271 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.94501884056881 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.78711862041865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.28699645975007 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.16557206792316 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.55214211387684 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.38114208203084 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.24825656319408 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30936320593549 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11247240937530 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63969452408310 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.63484260900517 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.52808136057217 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22055675177173 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02047982164508 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.66719744717679 at nshe,nfasti = 20 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -2.928E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.819E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.782E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.205480649413702 Pqlo = -2.314893143650273E-003 W/cm3 %fp_imp warning: RF renorm adjust = -135.874934169095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 14.1773671724245 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -73.3940721092899 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.55263927781864 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.36687983174084 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.67976321019088 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90688880088052 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 6.92579100439295 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.30720458401296 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 7.27553898236134 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61746813570414 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.46560672920509 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19307844368124 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.07689530579256 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.32559336645621 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11882433339620 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.66774554311037 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.65344586975282 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 3.52894138584637 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.22015521675784 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.02872887126324 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = 2.66751013547794 at nshe,nfasti = 20 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.728E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.690E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.611E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.578E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.570E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.563E+03 keV on shell 6. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.544E+03 keV on shell 7. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.545E+03 keV on shell 8. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.510E+03 keV on shell 9. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.526E+03 keV on shell 10. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.560E+03 keV on shell 11. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.503E+03 keV on shell 12. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 22584 TA= 4.50000E+01 CPU TIME= 7.82394E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 12.2952416666667 %check_save_state: izleft hours = 67.6255555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.500000E+01 NSTEP= 22584 Hash code: 103366326 ->PRGCHK: bdy curvature ratio at t= 4.5500E+01 seconds is: 1.0097E-01 % MHDEQ: TG1= 45.000000 ; TG2= 45.500000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9650E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0097E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 45.000000 TO TG2= 45.500000 @ NSTEP 22584 GFRAME TG2 MOMENTS CHECKSUM: 8.0174910218422D+04 %MFRCHK - LABEL "BALE0_SGF", # 3= 9.81951E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.90900E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 4.91050E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.550000E+01 NSTEP= 22834 Hash code: 6642647 ->PRGCHK: bdy curvature ratio at t= 4.6000E+01 seconds is: 1.0074E-01 % MHDEQ: TG1= 45.500000 ; TG2= 46.000000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2800E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0074E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 45.500000 TO TG2= 46.000000 @ NSTEP 22834 GFRAME TG2 MOMENTS CHECKSUM: 8.0281757166280D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 3= 9.77479E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.88665E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 3= 4.88814E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.026E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.441E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.622E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.70264600000519 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.72086487667571 q( 3 )= 6.90073782988520 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9006E+00 8.4445E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.3 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = 3.05609616327742 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.81952153003810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.11413117418196 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27558621149622 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.97483630276949 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08959515596090 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04144341663592 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.00602312287217 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.62724927402922 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.60413405912155 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.78533238296930 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.69788039829304 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.85000320427948 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -40.4708964739872 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -765.156843565888 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -6.20765489552135 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -55.0879514498387 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.94435839205178 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.27185168651605 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.87278987674694 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.86088261867627 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.05884007122647 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.332301067309079 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 6.06727426978678 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.34738433404155 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 5.18775657125494 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 0.455038753934249 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.41755653455069 at nshe,nfasti = 19 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13103 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.026E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.441E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.01538868150547 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40125844523926 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.61378251618617 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24380916994578 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.09228566690130 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.65920604612921 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.34795446964512 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.09121222982592 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.30171738568532 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.33623154146639 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.81603287255551 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.43021540813376 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.08569216600470 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -73.3245773448199 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.80905361617297 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.81367591590098 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.53476572867493 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.37959064805021 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.06685386063927 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.345072372803922 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.92275548411557 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.54551394953260 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.37380894218142 at nshe,nfasti = 19 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60750994707521 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17283095553081 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12250182920254 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 6.39383230536847 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60234991934245 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.37714776298314 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 9.61357260111247 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18487811575997 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.17129224695872 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.78485678764462 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.10306628816915 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.46745572461718 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.54828349598960 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.87699029694676 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.50997527031296 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.31586785566768 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.335199587969795 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.66199624069191 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.28594742072661 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24943718529535 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -24.7900519321165 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.75433323608820 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.47023426663526 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -44.8726108155089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.25233826664167 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.53151556311996 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07153575970302 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.22279845901263 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 9.32484501614009 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.01429524591388 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 9.05661052572974 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 9.69913408634218 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.13226885388673 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.24516857949647 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.61591575773638 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.07309431043338 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -37.4789958048910 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.27689875889051 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.43715235221799 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.82032497468982 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.45688038181304 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.26981572320944 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.347525916948019 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.57405419298894 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14943648511110 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.15986655245629 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.3702570119227 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.82307040130164 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.33767268911061 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -79.8661141275108 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.90944387894787 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.23293556141581 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84209906365306 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12332589052172 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18815128886573 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.44293724804814 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.13806245377082 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.65427095030361 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.69173021100829 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.03565359343949 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.482942561828973 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.66252815771214 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.34415275504112 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.486060760415757 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.72236754952348 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.35781551995490 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.24076708303003 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.355023613262046 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.52219688981345 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.06161050931871 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.09524511451929 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -10.6758868083867 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.59023940548670 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.95699724794714 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.72200558851317 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -187.977634108406 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.21822027134547 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.67937791259875 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.20798456594326 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.21802365832380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19274169942258 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.88396529821522 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17087815316710 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.02242273232619 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.82982127291136 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.07866353732947 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.490805619518928 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -26.9063967854900 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.96284978921339 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33195693442718 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.485666977055505 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.70694919732484 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.35868703188696 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.23308593849942 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.357698109549855 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.49297346473429 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.00135289866658 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.04698405526375 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -8.06585533153762 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.43074127127272 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.7191880660107 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97271776416184 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.75769927649402 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.01541245869967 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24998829739210 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.23768261518126 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.45607597318267 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.23222348013465 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.61108580023149 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.03826362097306 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.08408476743747 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.485247759284805 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.58321571143677 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29114264355943 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.472560030490673 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.65044869771549 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.29703657691553 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.21057320165822 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.362460251309974 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.46673002344604 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.95618578250081 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.00982469896011 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -10.5118497154976 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.76872156661372 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.78117660184463 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -37.4212052166605 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.34990304554866 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.10465448199489 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.37204566352370 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -280.348075460780 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.71712672193661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.45347782639390 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.29360958466489 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.08362023657978 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29693934524175 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.07298275436361 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.24576713026897 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.15758889969959 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.7859670302213 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.02676693815855 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31390941227799 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.479214007830374 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.66705177734790 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.32252529846262 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.21037120607370 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.363082435058728 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.45283348292022 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.92250812331570 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.97755925886845 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.77089801126208 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.83918068030848 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -21.3131829817186 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.91880780622939 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.16944948068878 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.06594058875012 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -209.355502950060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.64029904610831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.37302756566219 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.14007766920667 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.79333464063662 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.37273264219125 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.77471026875685 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.49112495112813 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.17568519211390 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.499997764614530 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -249.618763685979 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.73577537466169 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29444441391812 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.470349617457620 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.63071483472885 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.27871897443972 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.19435309635114 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.366647051494841 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.43700880451954 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.89518752430978 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.90046498080004 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.91992068802076 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.89501646372553 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -32.1132033092204 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.24818530089192 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.36463989136235 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.32030025236189 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.25871163909450 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.27210507451278 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.47456412948545 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.45762946807052 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.48038132096877 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.75526119302921 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21647546898962 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.02258018467451 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -475.098562970770 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.72152484282704 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.28698479947481 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.465455543709809 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.61281601072255 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.25439032109066 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.18320968840576 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.368871262021118 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.42513002294089 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.87346770002301 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.84640347231349 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.99211024156251 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.61925010534325 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -19.3488716554353 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.26827914373580 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.69539335338773 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.41888525483766 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -22.8264395473977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.85298539684869 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.91338012476127 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.40631737041538 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -166.537934083839 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.88661682998498 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.39373224161528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18480930680717 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.71278157332069 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.55523454107679 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.01525280092665 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25313781710811 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.04566020147631 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -219.070156864167 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.78708045264518 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.28877366446202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.463175571493916 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.60361724361492 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.24103933908841 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.17543945546935 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.370591430724689 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.41616008950341 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.85577950810066 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.20573043082861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.98281195618011 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.43831845680861 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.8287731519061 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.27528937271296 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.58860317270203 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.40832988377982 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -82.2159790438195 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.82394385210830 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60807342821538 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.32626428704849 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64182855871034 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.26796077488956 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28779167195576 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06553918830809 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -131.641120488938 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 8.89195779319498 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.29571434847904 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.462299267653042 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.59985728140145 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.23445232894518 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.17059051665827 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.371971002809340 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.40941093810708 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.84119780576200 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -8.82921866152737 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.02321693013263 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.59170427496083 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -25.0433974178681 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.33600830817591 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.67160679838513 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.46041644015935 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -103.032437413399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.87338439904753 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65519011282120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.37248682529223 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -130.393577202406 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.19735544776997 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.47777302718477 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22709291685308 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -239.701713081123 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.63208688881501 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -345.308071039247 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.68282087656102 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.13074516877935 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.30497334079745 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.49902374861927 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32081607198761 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.08186086633323 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -94.8251723827508 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.01777002468227 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.30542089228445 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.462165621856256 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.59969508188845 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.23262718438796 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.16826079031441 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.373023816804134 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.40447082313745 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.82909638705022 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = -9.66715005356281 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.74155849630358 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -30.4367209910016 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.33723299552374 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.68397423671608 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.44376501708253 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -215.744030381790 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.90883276501997 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.67034226248217 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.36332486761692 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -103.676741809543 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.89853429013303 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -50.1694121137029 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.32022394538652 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.32413879701529 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.41787280746740 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 7.72356922319688 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.00140338525667 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34954856799062 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.09493709645190 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -75.0226656012015 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 9.15240034804652 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.31615469968396 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.462349727117715 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.60164315461152 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.23477097896663 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.16809646259915 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.373772970816259 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.40107516353808 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.81905452031168 at nshe,nfasti = 18 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.026E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.441E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.271919413302596 Pqlo = -7.227818803798513E-003 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.167642376113216 Pqlo = -2.425076897531003E-003 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 6 Pich = 0.187868690216092 Pqlo = -2.241589841226471E-003 W/cm3 %fp_imp warning: RF renorm adjust = -9.55942384596909 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44570011530736 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.60361367540150 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.92723682415117 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.43717833398449 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.370359791219246 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -37.7940906657368 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.4219657858195 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.79488568654524 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27694231711225 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16908999443334 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.60118830428704 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12192320560679 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.12918071932745 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.483177331084071 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.00847719581988 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.79534418423802 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.17304226140187 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.65157040525933 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.55711823335589 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10140492144352 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.343096986579440 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.76376159859769 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15779048230131 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.18743066460935 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -5.52475020339287 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64312674825532 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.47050905600186 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12863282664531 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -30.3012066615254 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.85774421093758 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.96508774962354 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.05531373205429 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.36718094960229 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14651206609148 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.61591107523433 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15015862781073 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.20497884090060 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.499220129157532 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.02921320698934 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -26.8681005957156 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.88590345484053 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.23067220585894 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.73607467332728 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.57967705308660 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10127706948952 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.341798116796428 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.77503322512302 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15472321255242 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.17980929133284 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -6.24654727721868 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64963921374991 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.33542271240253 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12840913827927 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -27.2172810479618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.58243858992604 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.10020515341014 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.38711333583759 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15403563398423 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.79628011853272 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17285988905734 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.20503069674376 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.495544347480164 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06199822818327 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -226.156293791053 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.89084227408388 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.21577281412070 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.72618866221653 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.58288285095065 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09583619433845 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.339852077030225 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.77722372576397 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15188938568100 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.17409901543483 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -7.04171751198376 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63338834690866 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.83092252431383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.10098363479379 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.02919918101111 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.34113152798967 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15237562826632 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 8.97492038565150 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19029740336357 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21501029098343 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494885032884131 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.08273258968196 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -326.019092116405 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.89760061897761 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.21630005305644 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.73272704168935 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.58671709325707 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09199810798901 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.337885868500040 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.77969223284874 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14935463357376 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.16866440051555 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -7.65211177531862 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70140433239917 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.87094816963265 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18128908608271 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.02435631838043 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.29655252763326 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14692581818897 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.11567325004533 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20263157933604 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22691514888796 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494826332589157 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.10084352392320 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -208.621209529558 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.90573548135628 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.22079783982716 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.74448171826191 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.59154751728583 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08886863748863 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.335946513113711 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.78239915855234 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14716915665846 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.16379178951431 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -8.81323047820249 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.68079852214439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.76514774996541 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19197938662438 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.25850834757379 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13953401275811 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.22900359312313 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21154932784399 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.23837043522165 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494824554946646 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.11742763175085 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -145.968938864719 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.91467357980799 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.22716596942022 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.75880189555800 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.59700064892584 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08617691089339 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.334075045924317 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.78527764021620 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14534917050647 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.15948526117614 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -10.1437061838561 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65795816121030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.56137339843085 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19103154315522 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.22860242845571 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13205345403025 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.32700294429105 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.21874177514300 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.24875300481503 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494696076727156 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.13295589662712 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -113.090393331692 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.92436073136565 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.23455121086423 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.77442877534511 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.60293864545120 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08374710632187 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.332299765971180 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.78830871555861 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14389675140837 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.15569776866325 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -11.1814103604472 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.68930327809337 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.12487559005737 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22789540171920 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.20876818148044 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12654183044413 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.42062749424900 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.22522758024036 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25773554717086 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494524610827839 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.14768576218700 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -93.1142105891179 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.93392483827838 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.24253391446327 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.79061325751564 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.60927073248234 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08168745180016 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.330637085227852 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.79149982730539 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14282040918652 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.15237897997917 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -12.2456211815643 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73992607731088 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.48649103651916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.31664560944838 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.19691781701053 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12274543963310 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.51157687809576 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23093081289301 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26596680232202 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494363681002843 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.16178396805424 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -79.7409832117797 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.94322096916216 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.25088158121112 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.80710020119834 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.61594113399909 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08001412974006 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.329090433397227 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.79485238007077 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14211063461754 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.14947818622261 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -13.3484992851102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74099540870480 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41914054689133 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.33279756369624 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.88112004099960 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.02333779727135 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.19070921309112 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12049680879278 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.60022524533588 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23633337022274 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.27359064523821 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494237035212114 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.17541221766825 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -70.0918196352497 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.95226307421945 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.25946921926802 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.82360025250926 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.62291617105635 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07870257308304 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.327658101446861 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.79835751666980 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14173831207497 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.14694930105115 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.2646970181364 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74710497044719 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41672163262398 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.34781579031536 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.15145628505192 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.04567798782233 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.18959151823665 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11938133510608 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.68778039791277 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24144076509060 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28066996272498 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494127438739538 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.18861214427378 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -62.7770393861253 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.96104708891031 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.26818953809863 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.84039130359966 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.63015013412906 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07772118390007 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.326336340786860 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.80199875729967 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14166993787816 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.14474853634989 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.0787795621280 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75570822774937 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.39545033842765 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.36719863884923 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.70199010873547 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.05429979132080 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.19256676575196 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11950568652997 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.77668438509868 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.24654397540412 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28736623440012 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494044697751274 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.20135703911394 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -57.0534505504287 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.96984006834263 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.27702028662315 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.85735196990312 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.63759451090178 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07703769010471 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.325120664230363 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.80575735228909 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14187746035239 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.14283967224537 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.8516200532164 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76782182325664 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40077065853082 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.39154448771336 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.37711542484069 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.05270097560493 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.19830837314249 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12070840362132 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.86459331549148 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.25166616160613 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.29371243904467 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493999299506347 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21378961387826 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -52.4648475603870 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.97864238985251 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.28593552682513 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.87441863425387 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.64521263431907 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07661970371094 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.324005179017554 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.80961611911918 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14233111440332 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.14118956119650 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.0551610268436 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72652067077632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.44002774444418 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.44568389968223 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.07017781316997 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.05713753655321 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.20624396893663 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12285156396082 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.95161381997088 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.25684888964584 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.29978741131930 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493989707967760 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22595194580869 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -48.7487204971760 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.98738471035067 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.29491797452924 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.89154388160593 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.65296876088299 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07645818335711 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.322984306656173 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.81355619841499 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14300142008547 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13976741796455 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.2324503708745 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79364907553031 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.39131625384609 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.50245491938032 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.86558779163506 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.04781333372476 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.21488900599474 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12580997330701 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26214713625349 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.30567314509580 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493999307439770 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.23786491317943 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -45.6123080961319 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.99614317850768 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.30397325499132 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.90869831842693 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.66083779168019 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07653122780680 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.322052504196210 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.81755910421021 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14386112554425 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13854558361099 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.4446265492147 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67178001135314 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.65001258412821 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.39820574801290 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.71467077803268 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.03256184496951 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.22534254177173 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12945678152147 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.26746633405496 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.31137426704528 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494050171807006 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.24961835646010 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -42.9467132515530 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.00491225066923 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.31308977222089 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.92584369091162 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.66878666360052 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07681619198438 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.321204403024589 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.82160893319613 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14488719615758 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13750016702476 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.0217668244593 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75337290589197 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.49744745808293 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.62826678989653 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.58841305408888 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.01057898003985 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.23714338219681 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13372398186140 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27289011941139 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.31680967274218 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494149855685834 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26119905242829 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -40.6545096505931 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.01371476600023 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.32226126126152 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.94293932315734 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.67679172803880 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07728228687131 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.320434720218857 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.82569782837606 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14605882271913 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13660913120557 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.0671389916388 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72250871349414 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.58539346114605 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.63421952518124 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.49417343078076 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.25012053284424 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13852347997544 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.27838895197287 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32204187768348 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494300660063355 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.27262057938202 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -38.6616437884367 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02254259707733 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.33149751153021 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.95995445947586 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.68483278654684 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07789813295395 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.319738263907228 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.82981439863710 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14735519509510 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13585357876001 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.2297509497877 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74142423342374 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.60483036578330 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.69709002940262 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.41659801625102 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.26376811535216 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14376758915750 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28389507057789 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32714992312471 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494491529889227 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28387276316740 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -36.9199659227595 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.03141665664895 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.34078609695301 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.97686213731567 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.69288868459254 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07867438037003 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.319108688573152 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.83394914833909 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.14875838107454 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13521604062274 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.4599707604350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77161690504073 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.58756627044379 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.76736670307007 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.35090890046829 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.27797245690114 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14932254497966 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28942868770617 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33214561000529 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494714783572755 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.29493329457098 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -35.3882204165943 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.04031827579793 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.35013621110632 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 5.99365187900250 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.70094460740937 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.07955003662451 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.318542886251353 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.83809409823848 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15025435742616 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13468251814863 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.6494053480145 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78642164488668 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.64429036925813 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.81310914267523 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29377279597840 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -641.366878949883 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.5966073200018 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.55942557716481 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.90903642390511 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15508476306243 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29492908083435 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33706419641060 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494963997104235 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.30587777178184 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -34.0552157526639 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.04926064116672 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.35952933765360 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.01030150917319 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.70898144255271 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08053805616583 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.318037638561632 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.84224594509729 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15183194302399 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13424067122759 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.8799722004709 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81817111029693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.64241471560260 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.90176366350575 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.25827927604102 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.18514211800947 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13348316404960 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28927370885427 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33599522684229 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494249113094459 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.30778750594469 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -33.0297303737682 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.05678777762635 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.36882517521786 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.02680186979384 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.71699971354764 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08164402772252 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.317587917458100 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.84642158649361 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15348289992386 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13387720896385 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.1287009403868 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82836086258036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.70003699813506 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.92315482356980 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20863765122848 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -2741.46511507508 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.6707228161216 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.54023703423481 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.87850291979800 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14648182054178 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29533639119942 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34148597455815 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494484109491834 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.31892407671521 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -32.0029304284191 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.06504915966126 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.37783353200243 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.04284631378874 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.72489633876437 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08283808148890 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.317186673605150 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85054365450599 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15518106171588 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13358326291479 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.3327607162575 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85827410093595 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.67326903288071 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.98958640659186 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.17943966143101 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -3047.19175730617 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.7220689943599 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.34856189232585 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.83025505026818 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13144200695127 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29176762368622 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34105618717106 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493970358284586 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32173546790842 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -31.1370168886038 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.07240649343750 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.38688718219411 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.05872208395522 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.73273125510500 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08412286368439 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.316833998257243 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85464694167296 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15692128430679 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13334761459072 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.5878285576064 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87372535581567 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.70258855436411 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.14990046120424 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.15375247105555 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12211512902526 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.28864372302500 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34134028385381 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493440589372915 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32502699539880 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -30.3818743143628 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.07930623188372 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.39567238232368 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.07420727235496 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.74044744411494 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08547613600466 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.316523666446005 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.85870149948875 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.15868804168929 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13316249251849 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.6978769461271 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90337870841247 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71103037687145 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.12394824691994 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -482.919372109746 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.8680180656744 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.61225606609169 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.87220869388305 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14343240679738 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29791962383526 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34797141741264 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494004644968435 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33786121565039 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -29.5487005604081 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08738399023411 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.40440072731781 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.08926898546883 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.74800696923811 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08688220480544 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.316253515397101 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86268008894635 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16046902660268 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13302200951852 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.9461960111532 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91935545113661 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.72606676278330 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.11232797367583 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -366.421511020972 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.9375860472844 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.44504155963971 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.83423738724269 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13364931381056 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29701568750433 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34865360949624 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493797216280173 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34204654586277 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -28.8355161263432 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09473545915062 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.41336987729114 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.10424028766998 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.75550127444987 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08835452762073 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.316023464353158 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.86663476106378 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16226463968652 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13291782322839 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.2534004955906 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.94331319275632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.73234803973008 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.08714504541814 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -600.227756387719 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 11.9637100414516 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.41597085519544 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.81713293014018 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12761760726553 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29583704651464 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34972506013180 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493517906082371 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34636420553131 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -28.2155202770188 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.10169604100936 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.42217988805231 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.11885523391752 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.76288575888487 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.08987757314661 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315827897620428 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.87053909853488 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16406665068618 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13284564308025 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.4474769260836 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.95547592669521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.75860431943188 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.06888051573490 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -538.569372990393 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.0141605604963 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.42443428909711 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.81211540572203 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12510667239547 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29569196504759 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35116116179233 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493327633578794 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35122422603699 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -27.6354726682733 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.10856700060008 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.43085564548096 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.13300291333118 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.77013793404898 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09144126313876 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315664245209335 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.87438575290688 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16587024763944 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13280148557115 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.6479167056542 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.97909677735500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.77631907409821 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04633167855106 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -419.495630151241 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.0722522356925 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.44590738731263 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.81158254301998 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12469043363049 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29654258614218 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35300736821780 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493241584947811 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35667244159059 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -27.0859349114732 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.11551162574260 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.43947061649778 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.14684317497516 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.77725869309269 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09303766805201 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315530146406786 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.87817337980254 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16766930048738 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13278142214558 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.7933528148072 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.99176960546396 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.80195046609746 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02233569377036 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -329.230899775484 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.1339592314813 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.47349342045416 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.81330417032183 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12564189685369 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.29816528703160 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35520212974229 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493244795697804 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36259567346934 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -26.5637895884452 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12260208738336 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.44806378106161 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.16040151572508 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.78425029884996 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09466222744723 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315423766649805 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.88190043908394 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.16946017777726 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13278198084301 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9524240249260 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.01384747876681 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.82206841755601 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.01573521356768 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -266.844017188914 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.1981734069961 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.50471662767386 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.81650529249889 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12768525358143 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.30036016708532 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.35764519435566 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493319977379615 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36887069302518 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -26.0660024342983 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12981271127081 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.45667176306488 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.17369581879911 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.79111637894812 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09631338601998 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315343649348676 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.88556718641416 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.00169793835219 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17124104280803 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13280060783645 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.8916159811323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.03169729815927 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.85776070222342 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02125064228166 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -223.294640489120 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.2639465781997 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.53820177726701 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.82077105203565 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13038999890568 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.30297912072840 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36026627890583 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493457385421865 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.37540694837838 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -25.5910216762187 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.13701065979343 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.46518433379243 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.18654670693227 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.79781983461903 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09798264635883 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315292109723113 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.88937049285059 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.00374969696129 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17296686048410 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13282847135653 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9498787308490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.05290636129572 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87910439759947 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02281986474681 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -191.535076110686 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.3308264145657 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.57321564292384 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.82578883385318 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13354427315678 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.30592168156750 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36304020581478 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493644980922060 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.38213210078602 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -25.1422152719661 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14426095539732 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.47364398943582 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.19902175984015 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.80436289941606 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.09966952658191 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315265822027619 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.89319497882060 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.00579340603763 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17466407336801 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13286786118554 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9516522101396 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.06770622930087 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.90920835087572 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02506466580994 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -167.667003243574 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.3982549512256 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.60921029668737 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.83136473986517 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13705012568863 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.30911920899129 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36593535457646 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493876322970030 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.38899738942736 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -24.7184531569837 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.15155048763586 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.48208326127493 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.21119117819855 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.81077111319683 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10137024187324 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315261766115111 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.89699024105150 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.00781515638204 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17634341163451 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13291934074478 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9037858737236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.07928319576581 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.94582987170264 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02855490454801 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -149.245546328312 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.4658444315423 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.64582988263397 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.83735966633747 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14081436570368 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.31252426863890 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.36888851671261 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494141653700363 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.39596254122571 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -24.3176469194998 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.15887239043218 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.49051492481550 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.22305458812699 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.81705514402221 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10308187825613 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315277574743787 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.90072666847880 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.00980484120056 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17800452133781 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13298167075885 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -20.0612576287015 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.10094691141793 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.95781265162001 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02222558999930 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -134.629837918674 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.5332369096631 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.68266366252334 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.84358315384928 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14476495841613 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.31608020081640 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.37189197280220 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494437856071455 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.40298059772931 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -23.9387107320248 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16622840066801 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.49892697155660 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.23466657699756 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.82320981900077 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10480429452153 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315311667546341 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.90439674676035 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01175950504851 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.17964703089638 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13305366438841 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -20.0735160055564 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.11142089630699 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.98736481258034 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02263608384499 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -122.757831099264 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.6004396411276 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.71969398993192 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.84995155099069 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14888604014411 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.31976863329864 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.37494919924288 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494759937997597 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.41004002314869 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -23.5798653088654 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17358861239106 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.50730572700156 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.24601848603710 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.82922803522009 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10653302719778 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315362265970938 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.90800019010991 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01367928986086 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18127005776242 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13313423209882 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9794553590187 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.12835521776389 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.01756842290684 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.03295868378569 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -113.389123379508 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.6673863300252 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.75704819686229 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.85660942202906 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15317749651259 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.32356807905097 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.37805245556810 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.495106758959285 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.41711981652178 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -23.2401144312727 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18094295518772 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.51564152397391 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.25711826310111 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.83511952109910 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10826463320541 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315427763334842 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.91153719168817 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01556430122064 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18287168593686 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13322227910847 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.9808734742218 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.14876964858774 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.03516665862026 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04042877966604 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -105.654713873241 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.7340577932780 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.79447811571274 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.86351366249866 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15785622390121 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.32746950773940 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.38120995595440 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.495478486688801 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.42423304967746 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -22.9178436192539 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18828138121612 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.52392344505518 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.26796747583167 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.84088318066088 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.10999469038248 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315506676162271 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.91500761440752 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01741439771364 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18445135891149 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13331683376066 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -20.0385644573845 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.15815964711979 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.06395552949284 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04261063549875 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -98.8921737985285 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.7996660735254 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.83154415506486 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.87031154446793 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16187179748803 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.33138072252554 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.38435543108202 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.495859315264980 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.43127735476279 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -22.6127502362933 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19558228288390 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.53214556572560 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.27855126034416 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 4.84651630431460 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.11171915773086 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.315597905753443 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 3.91840754456346 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.01922781127934 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.18600746140454 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.13341705513241 at nshe,nfasti = 19 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.026E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.441E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 7 Pich = 0.222510352849353 Pqlo = -3.651134092803661E-003 W/cm3 %fp_imp warning: RF renorm adjust = -17.0133510663413 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.65714831569969 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.84091171991110 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.62200096148348 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.46966537092844 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67418683784934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29560553122584 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -99.1757126998952 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.8138712053709 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.88496549040368 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.88248889592157 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.05829170648798 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.25264507584135 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33163888061277 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.477340030582698 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33919353687225 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.9135948388135 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08560065335676 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.80125548589858 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.51844923113851 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.03717964580785 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.31493676606334 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.364748877219535 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.07349569615052 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11325836926038 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32675058501542 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24066690760151 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -21.5071227052990 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.63951913489642 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.35699758319936 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55328285689805 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -28.3207813026816 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -24.1651241091742 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.05351899530639 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.83963187942161 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.20742358651740 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33177404820716 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.475836246839244 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33314370935638 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.5882637906116 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08152744236247 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.77195287901804 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41166891929592 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.07712440975888 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.33159021554366 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.369541591936233 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.08313733632811 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11441517020271 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.31935327054835 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23968319166149 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.3265755778167 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.69199994504991 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.59080891012901 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.59003460104844 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -60.9380332340410 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -32.3594779841205 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -28.3275811227611 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.94253307942308 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.66637494412177 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.19594693141006 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33550925304062 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.474205299475365 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32931761528879 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -21.2938735166417 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08327830420323 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.77071387491192 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39006760098542 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.08613273176643 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.33730721033619 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.371228218798546 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.08606661476929 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11563198014344 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.31999380167769 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23938195621283 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -14.4749754990282 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87764615306877 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.52941649526472 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.61051017511135 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -1006.65450771187 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -37.5843625823656 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -29.4508246890821 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.87790808807181 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.58295595780193 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18820821532816 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.33809310253342 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.472682419914749 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32683221408603 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -20.9964690258550 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08714284266250 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.77555082698633 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38550579159083 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.09105897602316 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34079814116081 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.372149353437676 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.08909020240138 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11712563110786 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32160222072217 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23935278987996 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.3612621891192 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88888905817828 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.40458854605697 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.61080551269030 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -6522.53823393120 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -39.1721786423835 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -29.4534364945651 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83103434823323 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.55254651924232 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.18240414766411 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34085721371802 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.471337202756152 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32620794488333 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -20.6934927819085 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09199232550288 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.78224971038140 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38549584971921 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.09474930442679 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34346828329318 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.372806832893077 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.09198851948129 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11863159740028 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32337578444265 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23947331824514 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.8806893417304 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.91714575843069 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.30923483239571 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.61852162791348 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -39.4203638291312 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -29.2388833708151 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.79500656340505 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.54647315852585 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17778582240398 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.34370937706224 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.470155482255798 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.32691244972412 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -20.3891894971528 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -2859.18169215799 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09713939875766 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.78973107946316 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38727640981504 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.09804467508979 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34578203209280 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.373351307825300 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.09477001963981 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12010706363223 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32514634720607 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23965626709398 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.1089300938571 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.93479367632254 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.63074101796044 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.65493409453415 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -56.4563558997655 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -32.6718688169642 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -27.7943215691658 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.78287701577964 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.81434687574172 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16568123757351 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -518.971175870230 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58441968705360 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.29597721952377 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.07275782904041 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.76211284064125 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.32400098096449 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.08661949601123 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.34463201040734 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.373957764370259 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.09324595171806 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.11973812942711 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32634660386085 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.23986932363708 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.3532886625517 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.98677778378384 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.56244515499893 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.64440014310099 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -5886.56317753383 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -35.9163499743599 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -28.3607862118835 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76164439337198 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.61568744816914 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16615625512227 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26403608940264 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.454397783007940 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21980639911131 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5875391664798 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -93.2736004801946 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.13988542562226 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.85476154653519 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.44918635334854 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.11516075922145 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35369417013038 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.374266590337713 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10376010679390 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12470100129575 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.32927719255941 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24006830994644 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.4531724172273 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.06527740233884 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.36486189660668 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.64991419177753 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -38.3108672382865 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -28.8182905981567 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.74195763664316 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.73235052694072 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15529543645897 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -1275.70889656785 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59489074226601 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -118.862409717441 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.10767292238685 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.80293919773221 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.36137481345450 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10246065037241 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35110450388882 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.374890657693632 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10165004840805 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12408019742282 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33020532313778 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24036432560657 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.4278489203324 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.05311859291571 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.68432666025846 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68728130544239 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -61.2872386307294 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -32.2218649677690 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -27.3159965544038 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1591.38705728876 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.74260116569652 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.64356079182823 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14844248056436 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21452787285723 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.442444128554605 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22038207539968 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -19.5661047919551 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -610.022789865803 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.11304775985517 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.80949335045954 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38503035794692 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10636848189572 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35274167606613 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.375240900464198 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10395259205467 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12507657461305 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33181636176908 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24059959735845 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.0140278749777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.11561813650825 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.61958713278710 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68256155324341 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -143.577732458486 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -26.5308640119066 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24518319506314 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.65833809112053 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.68832001312831 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13863876624109 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -1003.13510003023 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.54266668759964 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 3.55847059454256 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08259267757428 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.77910875930757 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.32339965697094 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.09375448784842 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35081551736457 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.375500179218408 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10157472317181 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12414033457435 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33252822625499 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24079290749774 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -21.3765200446880 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.08197595745123 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.39891391658148 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69622770539967 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -43.6001563209533 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -10.2663466025099 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -63.5437905463853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -450.900401696733 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.79314184400971 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.63757443813410 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14334911090555 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25026220982227 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.448136681696452 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21203164688008 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.5947455915215 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -88.9989442092763 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14958193283288 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.86901317925298 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.44720142519638 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12074727338730 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35895723159451 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.375512189303682 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11101077817609 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12850093668339 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33484605627891 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24092101669127 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.8573095742231 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.13034560389559 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.96891759810671 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.75166484854487 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -41.6863085600836 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -23.9021462674897 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -86.6360287362359 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -525.933166993241 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.71817419199253 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.75304097101025 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14479043575775 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -505.295414070600 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58555884114517 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -119.652554360137 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12045717832097 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.81954205544101 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.36366411309672 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10792369086115 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35595384785619 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.375920628864147 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10842708186277 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12763741826614 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33531851924222 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24112665729851 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.8543630175054 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.16680734900338 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.86285377094775 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73080837011215 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -140.058033421914 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -24.5158420190099 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17556615022672 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64698853283308 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.64261583700739 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14219624804264 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21315876740672 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.439276396816445 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22096874673891 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -18.8899653990089 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -350.647066274006 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12716303320765 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.82919580317365 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39142174498694 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.11234951414731 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35739094757706 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376127148968320 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11056024605985 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12854250135256 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33656845320892 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24127520664095 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -22.3833882074037 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.17080112094302 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.47915140366264 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73226787427866 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -42.3736657503944 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -10.3147981451281 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -61.7483146725992 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -403.677418144377 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.78738938212743 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.82884429785145 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12920028682070 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -329.048058435523 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53903193844414 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 3.59077240509975 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09947636968488 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.79935065806473 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.33189008382708 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10012697609016 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35531591358110 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376302098756446 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.10805779332916 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.12754576559840 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33706096906496 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24141971815209 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.3138634827383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20639282770664 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.04666066559974 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78147477800303 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -42.9154654867046 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -23.5522791795620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -182860.863288866 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -86.6103091759249 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -375.276456896662 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.71372999556357 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.65318736315621 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14283757171146 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25135627772371 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.446173588287192 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21913906642622 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.4788405223704 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -83.3561269382328 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16624762978616 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89026227399714 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.45722931117242 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12741162314968 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36330192479519 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376244454997279 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11738251543807 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13183598642403 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33914985872838 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24149665757028 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.0826349195441 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26277845955228 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.11709479799854 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77773538870963 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -78.2990084515054 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11827549851770 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.60768946156406 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.76557678041506 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14269145963415 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -354.147726591291 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58601052542345 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -114.343748032665 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.13606930113464 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.84120803987614 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.37504756032501 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.11484275593451 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36021133487425 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376603186537655 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11472281063502 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13093860140040 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.33944121681548 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24165843007333 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -29.2281571317520 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.35137099351548 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.58586823972181 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.85421214254450 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.9744709613127 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -90.2704106388461 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -6396.36766760859 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.92068968296511 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -53.6584569916474 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -291.396692233452 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.80248091451375 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.81462358463030 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13547941188834 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21476698835936 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.437754967935860 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.23677812995715 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -18.0489805781156 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -1012.00093955894 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14743387563863 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.85103604916511 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.40403479096716 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.11964301006555 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36162533865909 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376782571478097 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11685416855414 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13184221109819 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34062049482889 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24179628517096 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.4564630241334 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29532590640733 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.53112148753070 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89722900282232 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -32.4876359100081 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -136.447642927545 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -527.407598587900 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -59.0208278905961 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -144.610513968889 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.72923368670817 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.91555154658171 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14009982107096 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -229.497806111469 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55464323632297 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 3.59695793036602 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12317676184219 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.82351743184984 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.34466963856382 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.10782968553482 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.35970606645028 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376987500511104 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.11459190128125 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13103760792492 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34112288838546 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24192910734905 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -15.0459349753159 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.36882457542008 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.35383747254254 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.82564736787850 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -72.8341156659586 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = -1559.79484562703 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1088.36880635929 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.62003679123316 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.73319076722719 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14917223296206 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.25869579400640 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.445771057969539 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.23120773169684 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.2963797352260 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -77.3456082637558 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18778844709969 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.91628830913012 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.47337097116291 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13585879586287 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36773550970647 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.376917806329226 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12400853046053 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13531805688697 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34312944835084 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24199735510193 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -21.5371997115872 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.36983578446724 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.06681567859013 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.82311661790370 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -331.063250447379 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -10.7976466133689 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -57.9812438003621 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -398.838933528601 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11741298574802 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.59047792151216 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.83791264435429 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14288898845245 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -251.977253377995 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59356446149648 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -103.503362535260 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.15626415376774 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.86520476575824 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39032402063299 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12322261053996 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36450348485651 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.377260784030054 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12125850741186 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13437448000625 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34338337150637 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24215993269933 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -21.7868797208149 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.45417160045319 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.97893504299287 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.84157275977502 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -308.150186707012 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = -9.27786724405433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -47.0690734628091 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -221.181970107042 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -4625.19306836183 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76737382143830 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.90285602463752 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14043554883880 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22108694497343 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.437305615291295 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.24897891432326 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -17.5405005927734 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -509.501428047280 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16716450616194 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.87503482769667 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41964861293433 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12801656551315 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36581522842971 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.377423570766931 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12328563172694 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13521778823968 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34448174138411 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24229117689921 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -22.5808666806144 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.46913094702436 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.99213418056769 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87617271774862 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -306.189059647183 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -10.5972242202368 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -57.1970646221680 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -377.250474758910 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -171.940951490714 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -230.418480111138 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.74028561756519 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.99231693065336 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14080187088480 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -179.659542709705 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56120558957247 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 3.61045566299188 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14198351525798 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.84666084201307 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.35969125472550 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.11606760007387 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36377815643259 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.377616003753665 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12090454634991 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13435532436501 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34493790847668 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24242306826855 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.8142784274683 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.52246014159302 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.29033264191354 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87235367247139 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -80.3264289094828 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -675.993381103741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -969.479174226329 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -610.268949461225 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -453.184870428812 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64565802674244 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.83124243788179 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15189014885793 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26427128267892 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.445440906947670 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.24620240012739 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -10.1473130487819 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -72.6042391940840 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20758541978562 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.93901393886325 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.48838576385363 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14399436347974 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37168832245882 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.377531237457880 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13018907769478 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13855858316139 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34686879071431 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24248689299045 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.1825837606019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.46861770758406 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.04602966687652 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79948727122010 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -115.263912836180 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.56664543272272 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.93814869797151 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14984671534843 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -194.969829027280 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60187248437063 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -93.5943190912457 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17486691887073 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.88812206960909 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.40521730735770 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13124853214381 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36836260025011 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.377861064999862 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12728475035268 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13753260739048 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34701227517855 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24263525265542 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -42.6396727267663 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.51698286928102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.62509478469824 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88615503929561 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.7412973121458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -80.6995690749390 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -1220.66640490242 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.83723794027230 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -50.7090485409618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -248.373363433660 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11728.8816795602 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.78991806387144 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.99301700820603 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14091159491600 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.22552452622463 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.436977553697746 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26299258815579 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -17.0400322193299 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -344.140192697150 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18626588161652 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89720190152741 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.43457940645657 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13602776011136 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36960011082121 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378011163722515 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12922268442256 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13832951200249 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34805041971224 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24275780200503 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.7655001195851 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.50291686034724 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.59319485935076 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.95548986139849 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -35.1813479256695 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -230.752958576979 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -292.697054346786 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -111.783263161727 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -138.900003976575 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.73244586361494 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14667991986722 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -149.026217496141 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56998005529923 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -2809.95929775620 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16008991699138 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.86826654686028 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.37423593916613 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12394071289095 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36746040429955 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378191975814054 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12671202080961 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13739815983516 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34841488417179 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24287530404477 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.9448886219442 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.54134750729990 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.45902387013461 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87841698518444 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -93.2920906214408 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11265718598789 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.65414234199335 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14945768903400 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21968697593039 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.435404395968629 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26393692511193 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -17.2530525100597 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -323.426838704296 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18208852046100 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89080311300547 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41840811135624 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13134722106514 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36936978104368 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378174197762644 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12932927926057 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13838009371219 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34934180627848 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24295310739418 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -35.5412952299464 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.62902479843839 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.78512271111180 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93360853699432 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.6026976464808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.7312885519611 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -897.298403027390 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.55383821287478 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -46.9848707444629 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -215.982271273337 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -3602.18417819754 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.84563841503339 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14024924577297 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -126.450759401375 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55970584530856 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -1061.79259088506 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16093152836623 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.86638610299480 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.36501594784482 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12083160038572 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36747087350077 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378255685198377 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12711387803347 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13756143622596 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.34957957664846 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24303850383619 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.9143647807596 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.59271232046538 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.75780247564788 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.99593941578379 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -34.1573787901508 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -161.110157913177 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -244.533185730356 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -85.0855536807448 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -120.668297733995 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -14996.3239166328 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.79627074710264 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15181711742789 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21884556735421 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.435251287516120 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.27812758682975 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.8519311587809 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -261.309984639646 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18955940561330 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89293201062375 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41461774310231 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12969078796327 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36963029748416 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378183847086954 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13006447871197 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13869991081498 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35042342356832 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24308302118472 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.6017979413474 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.64123479134648 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.63762263478910 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92632429435561 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -85.2302111323275 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11926044446053 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69850516604057 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15323566141388 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -128.480618260099 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56325926795721 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -841.146431415969 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16623647145177 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.87175389558285 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.36502563156488 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12026761777954 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36789918545097 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378238915927064 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12808668719709 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13800812600845 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35052739594020 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24311462412209 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -33.8794909184287 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.71979833588850 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.89043462580539 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.97122024625445 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4567872979963 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.1220449731125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -757.438732416992 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.49412941402874 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -45.8078914839683 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -205.788580886844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -2799.84031680641 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -384.670099093026 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 12.9711485505811 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.58790167179706 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14873253880022 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21650414442108 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434763701070129 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28718146172510 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.4856899579878 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -223.861372768607 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19719633643636 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89903211323137 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41650709498957 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12992081877857 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37021087038969 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378171202897491 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13125881987451 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13927573317958 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35137521458489 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24313932685233 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.7583816990611 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.66431684135001 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.85423625179674 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.02778422545517 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -33.6982745870084 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -149.506899230075 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -211.209345299878 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -78.2206227171539 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -110.933520520394 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -2598.13589228429 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76066883645673 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14621930641196 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -118.718861607050 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55608370535894 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -455.402283131563 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17372686681039 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.87850400180871 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.36834525052549 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12115880191685 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36860970492839 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378235923156655 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.12950202524031 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13870064387830 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35150523015467 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24316165347466 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.5033820297048 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.72137789444779 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.72319843781291 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.95276117514375 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -83.5310929057093 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13004581957608 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68534721301026 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15114580971294 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21656064709887 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434410668551267 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28203175891529 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.5098516319171 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -215.698428606069 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20142676036235 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.90677437558129 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.42132429158039 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13132648291349 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37099728446958 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378167139357166 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13282974398673 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14004624020982 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35230618322415 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24315800609710 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.6480928002549 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.78176474259142 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.95107139161111 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.99768297961587 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4822805566593 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -72.9800639498913 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -692.256448871072 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.47220040948137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -45.0432435136550 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -198.466910549893 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -2357.66646422389 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -231.912809395040 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.0736626320261 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.58296884041021 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14373568628405 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -106.655989780991 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55559071135887 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -324.574894998312 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17987233678536 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.88490750288450 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.37253071424641 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12266105160904 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.36939571552831 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378243541487425 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13109724752644 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.13949942987836 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35246773969542 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24318151382529 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -18.8270816673746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.73447148315773 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.92366899631250 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.05157159924213 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -33.8301349323615 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -149.085887031998 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -198.405555128321 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -73.9966333945665 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -105.627867474618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1697.09020764608 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76821282082461 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14734365505515 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21420593418593 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434216957094193 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28826981496037 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.2522740729254 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -194.779065350716 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20937106923000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.91379075006410 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.42638418532218 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13317262812839 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37185614634524 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378186236321207 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13455445839993 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14091309458103 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35330420644156 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24318116371462 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.7107918315051 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.78524991654834 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.77561535483455 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.97506932759998 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -85.9460358091812 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13875777086976 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68350284074540 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14941083367269 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -115.346188886078 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55762301919136 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -344.151316140248 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18442810856069 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89259044508443 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.37813037008855 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12470316565293 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37026535395786 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378262945463687 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13287250741489 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14039103413194 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35341493954129 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24318538563958 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -34.9299536957038 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.84740390670233 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.01037405516247 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.01252967966233 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4294119935463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -71.8790196009925 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -644.525896365501 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.40462236860983 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -44.1833486694135 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -191.444490223320 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -2043.06794333947 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -218.420399509787 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.2402343145519 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.59609474074923 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14754571687380 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21472215899097 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434196265531650 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.29950685180832 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.9772349705379 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -177.654266310634 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21659030246320 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.92040744919806 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.43149060022059 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13523168337350 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37272050163263 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378218055542912 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13632803911399 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14181544899736 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35428795123450 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24319374512522 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.0806053493359 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.79569023751660 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.97246856933338 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07435788620716 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -34.2581606324372 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -159.285741013963 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -189.673052409233 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -73.3131973684417 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -102.176046287711 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1327.54251819773 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76416912783638 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14712031071040 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -108.037536777517 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55520944614416 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -263.190072559376 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19219548569697 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.89962210935190 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38357567050161 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12694884490552 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37117305191029 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378306595826617 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13472160122994 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14133254184449 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35443267044683 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24320710588101 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.8088046995551 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.85143819136221 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.83113396605313 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.99427356864595 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -86.4027565617811 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14870193839421 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.70092491244515 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15389688192334 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21753851195332 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434383587968135 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.29689120477666 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -16.0276989800263 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -175.069317408706 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22119508973202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.92823855871789 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.43768943649137 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13765290295710 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37364105093457 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378260101121471 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13821774445137 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14277276491123 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35525322088443 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24319875479914 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.0635172764298 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.90052925831362 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.05883774324158 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.03290066799951 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4500258796400 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -70.9269195339218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -602.280607548338 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.38281710153861 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -43.5348842829691 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -185.717176771065 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1823.14561319394 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -132.630532399032 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.3866388381581 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.60989857229626 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14793638650568 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -97.4488555842152 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55818259227299 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -215.040416755710 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19874434579359 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.90605638374156 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.38872200211153 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.12924626456823 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37205776225790 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378358825989466 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13655930245674 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14227516531522 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35542206100805 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24322080314796 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.1595557392878 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.85839169443434 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.02642485718746 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09369883342423 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -34.3307193000485 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -155.143815307247 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -180.225067115438 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -69.4074961761688 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -97.9550978741595 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1066.03785876031 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.78089207343661 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15264892783226 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.21696951831384 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.434591196878530 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.30475092798469 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.8121386668646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -163.108008392237 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22938894660606 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.93514968315332 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.44334974909837 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14011691378179 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37456738458435 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378321612857102 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14012060759606 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14374760079600 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35627039675198 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24322077718538 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.9914081459301 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.90453576848846 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.87400827958975 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.01332409493940 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -88.0802752914436 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15790400744927 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.70623441394321 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15567968060691 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -104.745533027960 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56249414862595 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -226.212085483952 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20376276831370 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.91355098126702 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39469122105867 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13177443920168 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37297411712283 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378418340486605 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13846661985947 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14324880985195 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35638182975118 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24322683358719 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.1106575993490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.95841149117473 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.11360922402516 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.04426763755704 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.3825191089017 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -69.8968303647272 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -568.160107710092 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.31243970933336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -42.7794510258117 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -180.076334600274 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1648.55970582960 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -126.148299890171 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.5648764252427 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.62839604209358 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15477276120234 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -2844.73959794010 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.44873209021222 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.5709887203567 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -152.397146700157 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23680957819490 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.94145753066433 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.44856830107532 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14254001029377 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37545766979339 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378391456731426 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14197894016806 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14470627846438 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35725812325854 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24323761806803 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.3627961856891 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.90796685668573 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.06571433000715 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.11209467819610 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -34.6969612048392 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -159.832944148008 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -175.832122841465 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -68.3344909323420 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -96.1064539448593 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -957.091075142226 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -356.003876956447 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.6075078807380 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.50048838487190 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13644164268110 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -663.309476451400 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.38316384046027 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -158.403715963688 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20156855987079 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.91439754786850 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39449201272505 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13263303947545 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37329170778603 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378493580240867 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.13961139328680 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14380463418433 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35726077882553 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24327245998835 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -16.9760884969750 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.95595325751219 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.92591510018338 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.03036155686526 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -84.3161714591497 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16247929339829 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.65800158365579 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 9.99279067107415 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13135446872045 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.18287971589489 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.428754455192974 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.26198075707752 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.8588573849375 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -159.108315494096 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22592129352428 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.93984734354623 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.44801142870152 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14299431855585 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37565878823988 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378361944092400 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14301667079881 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14514745915299 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35800457617968 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24325391436250 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -36.9420229046775 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.99922764199853 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.15551837493822 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.05956889914319 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4187601666215 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -69.2027016930875 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -540.566298986991 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.32504074953062 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -42.4421696295853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -176.864228392144 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1544.16762264551 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -182.905681134925 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.3990535639113 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.57884176652986 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13010665991334 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -105.164565245741 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53553602126607 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -192.902400964668 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20243145793228 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.91561590815972 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.39799639970881 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13408178062094 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37382313558434 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378389362368583 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14111632834556 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14453063257508 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35803090598532 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24325020652637 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.4113278069429 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.96191372859502 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.12246757398252 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.13016012544626 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -34.8213620733973 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -169.044336117758 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -168.120910263042 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -67.6154214506525 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -92.9408618109650 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -829.843724622785 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.76401736325808 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14097976736209 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.20754190393919 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.432988497849117 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.30071089542434 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.5992500217174 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -147.550305287609 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23648336943491 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.94525763454618 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.45337726010261 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14487225072391 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37621218409421 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378310429263865 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14458138240608 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14596678912224 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35877987938276 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24322212705441 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.2342573268507 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.00692460196800 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.96072956533178 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.04682253312377 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -90.8968690936629 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16969289523852 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.70041870282958 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14866056765912 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -104.338171141921 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55423795229595 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -190.345776594829 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21152499772568 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.92425175609700 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.40486186272066 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13648185184734 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37453920923390 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378392071327812 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14285645992525 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14545028793688 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35882023830716 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24320496821178 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -37.4812697543575 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.05190208380396 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.20220421769118 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07181266848009 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.3814093414205 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -68.5950472364061 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -522.042962634070 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.26701884065313 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -41.8347192842296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -172.501124981103 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1435.99561893350 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -109.034342572808 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.7264871972540 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.63422462821457 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15130581961034 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -1810.88970064036 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.44407215034096 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.3263918732780 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -138.010052229658 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.24727201366762 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.95317828023880 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.45968555452637 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14743468434042 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37702961775762 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378366428078588 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14639306570774 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14693140213905 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35966269858861 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24319881597530 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.6839548473566 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.00762922486035 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.14805159196800 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.14586737581347 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -35.2409066959804 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -171.965901495304 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -165.226913227595 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -66.1736926391828 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -91.4268230740686 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -768.721964558875 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -275.198143844488 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.7526639805671 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.50476903649881 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13535953055610 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -553.497910246247 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.38061572967675 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -137.487188138183 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21205553078373 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.92657579134534 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.40566547444553 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13761399412364 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37486247548289 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378479924899985 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14402651372840 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14604292511484 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.35964102071774 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24322278886322 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.2128178999328 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.05367741052981 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.00969566723127 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.06108236366716 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -86.3608748728270 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17594554424807 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66182446965480 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13228607103085 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.18269714609505 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.428803568043961 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.27050392070322 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.5945338581250 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -143.605299813612 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23823564367208 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.95274655644721 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.45988867904704 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14818873992179 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37727293778442 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378364359588851 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14748415037563 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14741973787343 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36038050792455 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24319781626732 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.1726634084394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.08911466551606 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.24047185734014 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.08466057806305 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.4006256861564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -67.8597729756400 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -498.290996289037 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.26718556295049 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -41.4788181061021 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -169.449219083661 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1357.04456564132 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -138.457257306944 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.5928716698681 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.59521671367447 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13260423534545 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -100.642267545122 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53676392991631 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -161.096566972625 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21464638387826 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.92875818080127 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.40977415293309 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.13936548435407 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37545803622809 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378410990061340 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14559739123494 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14681913797052 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36039948316666 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24319122528131 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.6819203902666 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.05583453808618 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.20224745516904 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16219430235599 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -35.2376106497952 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -176.403466725733 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -158.328811248509 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -65.0950646487662 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -88.5536010169487 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -686.691548522585 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.77253407080119 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14457258857087 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.20925625336928 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.433419292658269 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.31198583072608 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.3435131047613 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -134.503302244201 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.25006300406761 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.95890882812890 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.46566336176921 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.15033763657131 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37789523326805 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378351707953614 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14911039504037 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14828402742555 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36115098471027 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24316254635780 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.4220401258175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.10011842015900 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.03482557778457 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07493231907736 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -92.2561861778909 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18461993746222 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.71699424900717 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15342040867353 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -99.1805779976145 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55790489446952 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -158.807062938689 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22496855299829 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.93796609852206 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41691853949984 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14200455565151 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37624317079893 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378453708797636 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14739189263245 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14777759040800 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36118645891210 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24314649515433 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -38.7687069116780 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.13438136007482 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.28019268961974 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09336172376438 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.3528213609440 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -67.2996187891046 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -484.133003102809 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.20436599721345 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -40.9236734161515 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -165.726292102226 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1280.83973355054 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -87.9425334997750 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.9619148659405 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.65858839501067 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15702154687494 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -909.861857868127 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.44833080131009 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.0799968441542 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -126.906246448807 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.26182629398605 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.96724579136639 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.47210479473540 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.15309781676486 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37877703351439 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378447379316130 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.15096130440776 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14927827552225 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36202676787276 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24314236364482 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.8958241096774 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.09538460087424 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.22471195982740 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17592716603384 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -35.5320755985885 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -174.271062681449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -156.122463148269 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -63.4118355439214 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -87.3744016037126 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -650.698462080735 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -206.877846221480 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.9274086315764 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.51987820783265 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14150429123794 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -423.324175061296 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.38525648229494 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -120.307813819127 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22611397987035 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.94055123883313 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.41775775456095 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14329895322432 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37662427899272 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378580009226894 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.14858756152156 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14839133113193 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36199751556502 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24316916451554 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.3454183921787 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.14052722515603 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.07685034568587 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.08510492114170 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -86.7678707827378 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19106308957028 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67393181851665 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13894555835192 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.18658673704219 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.429703073434341 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28411753927682 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.3475307147405 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -132.170879196526 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.25292151498175 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.96695605533628 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.47224936635900 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.15397670875701 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37907058208993 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378481870568032 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.15206492076656 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14978038466448 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36273272921484 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24314726146184 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -39.3552335587566 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.16496712609089 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.31360789502306 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.10510975730575 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = -12.3646308432826 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -66.6234363458379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -465.080944894898 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -9.20416859468801 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -40.6237579525458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -163.247987408174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1225.44121432901 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -107.984651825427 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 13.8096658704533 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.61978059240255 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.13990067890162 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -95.2873325329501 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.54297178956144 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -138.238166207464 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22910482187091 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.94283119378087 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.42177537158586 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14515098213576 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37726606662145 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378545890416508 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.15016344502850 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14917686608478 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36274267363761 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24314432502037 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -19.8268580161721 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.13854726982072 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.27819410364689 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19064288884781 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -35.4251604531674 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -175.823558857867 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -150.358537113540 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -62.4144789439322 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -84.9695647704782 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -596.598557779490 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.78713089111422 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15215412943986 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -6575.48432922592 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.44155050675642 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -15.1127632962959 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -124.874852552897 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.26512174560565 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.97315209036441 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.47787323755925 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.15620027567246 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37973261840086 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378502315047153 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.15368524817767 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.15064766834687 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36348718344415 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24311936226435 at nshe,nfasti = 19 5 %fp_imp warning: RF renorm adjust = -17.5373692071170 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.17774042569814 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 9.09342170904877 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09535886864299 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -92.5351479854754 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20287755237866 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.75458711407212 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 9 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 9 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 10 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.14337442294187 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = -489.264046962237 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 11 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.38576166534015 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = -119.739931160669 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22949331476569 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 5.94607847829019 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 6.42301854760049 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 5.14615784398732 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 2.37747666330375 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 0.378615952363356 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = 4.15118555622527 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 2.14970858264476 at nshe,nfasti = 17 5 %fp_imp warning: RF renorm adjust = 3.36337427239630 at nshe,nfasti = 18 5 %fp_imp warning: RF renorm adjust = 2.24312576921740 at nshe,nfasti = 19 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.713E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.666E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.581E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.543E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.514E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 23084 TA= 4.60000E+01 CPU TIME= 8.02917E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.0837225000000 %check_save_state: izleft hours = 66.8369444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.266E+03 MB. --> plasma_hash("gframe"): TA= 4.600000E+01 NSTEP= 23084 Hash code: 65477814 ->PRGCHK: bdy curvature ratio at t= 4.6500E+01 seconds is: 1.0048E-01 % MHDEQ: TG1= 46.000000 ; TG2= 46.500000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0070E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0048E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 46.000000 TO TG2= 46.500000 @ NSTEP 23084 GFRAME TG2 MOMENTS CHECKSUM: 8.0388604114139D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 3= 7.26328E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -8.55690E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -8.55776E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.650000E+01 NSTEP= 23334 Hash code: 121803980 ->PRGCHK: bdy curvature ratio at t= 4.7000E+01 seconds is: 9.9884E-02 % MHDEQ: TG1= 46.500000 ; TG2= 47.000000 ; DTG= 5.000E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9884E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 46.500000 TO TG2= 47.000000 @ NSTEP 23334 GFRAME TG2 MOMENTS CHECKSUM: 8.0495451061998D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 3= 7.23034E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -8.51826E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -8.51911E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.78240100000403 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.25056809800623 q( 3 )= 7.15209770963582 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9100E+00 8.4397E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 402.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.3 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.11453661769748 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.04962665089070 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19036095028035 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.74992598563845 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.72256971209014 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.36895557418074 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 3.95539383561435 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.08700677209088 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.85066883684926 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76219775156864 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.28012932877903 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.70296817212115 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.19211303249163 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.74262498386142 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.05944333864713 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.338813336290900 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04460415186345 at nshe,nfasti = 16 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13056 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.530E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -1207.68042034048 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.16766252974995 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.450531692294316 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.478433039319119 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33526969457725 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.51514672772155 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 3.71199176249801 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.57077329528426 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.30298223441785 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.35971111991051 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.80688598880115 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.58092899207925 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.12064353919397 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.12012729629473 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29225737239669 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.585E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.96752459323183 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.31113221392694 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.81039937355906 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.98392196561166 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.01892131594212 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.76492537051165 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.33113608424880 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.26767067287493 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.59550766801258 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.81085441984754 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.15813511522996 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.20858477672941 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32899340275504 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.588E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -1689.76543892626 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.38211535756463 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25180041604932 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.83563326277230 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15098482806013 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 3.95297714865493 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.75790515506326 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.30988704297668 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.06511764643529 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.65799126551754 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.80152521478211 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18612693319901 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.26811721654519 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.34743550085131 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.587E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -2637.94827320713 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.55300571671931 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17502924743223 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.54756003225547 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29396648137083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.91450841904228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16434720519985 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.01460082232343 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.79712025033265 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.33127192693355 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.10433608556461 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.74347932064464 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.89569673199342 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18854875124708 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.28311817829756 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.35970412761398 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.588E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211580684277850 Pqlo = -3.536302655653622E-003 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.205929074917257 Pqlo = -2.033305244632585E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.27215042791199 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.12385575299097 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.98792893124743 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18914232420769 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.10298787582547 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.80767503168738 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.31809879193502 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.08924900778824 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.71791755667285 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.86048785621678 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20346525480914 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.27264739670913 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.36561919819249 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -121.022568335794 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.39880946382675 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.55692975433626 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.76193417955655 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.99369811420597 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.92667925810388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07889662029240 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.45871688741193 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 3.91133118732665 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.84760657418088 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.36473208411788 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16414317814590 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.90167219208865 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94585130760899 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20597801260264 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.30236269400593 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.37269241116457 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.21619504510657 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.69210256506723 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.84917234678928 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.97438714763562 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13064069052754 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.14346169825950 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.85169236365836 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.35186373996549 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.15435290565387 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.80300103363556 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.89824072521551 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21981552449490 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.30764033857757 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.37318567544628 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.212114941459165 Pqlo = -2.102134260980886E-003 W/cm3 %fp_imp warning: RF renorm adjust = -5210.19068360809 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.66315446945030 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.53443765313552 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.08548200536268 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17581275665789 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.23224439640535 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.89300634947085 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.37562110222962 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16900129367319 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.01111680209041 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.97644909136728 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21203269928417 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.27174233477687 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.37044838986202 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206549314464580 Pqlo = -7.336209775428444E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.68488649503670 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.77645475540438 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.95052126539817 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09817520312549 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.88321364054883 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10351055738585 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.22088557209177 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.88660153107168 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.36191525244393 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.15898781720052 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.83541912643650 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.92181745683306 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22282074843652 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.26587954376542 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.36863891372245 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -191.765003189959 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.07881528029417 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.321242747258727 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.179036532077726 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77626227285760 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.07373626307884 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15519381867674 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.73007321505597 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04601838949267 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.13443198849514 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.93749038601380 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.40535411390059 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.21739307752178 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.16686043681094 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.99963001206348 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21580575204310 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.25929529921851 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.36640016258466 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211995705900500 Pqlo = -5.892929745489779E-003 W/cm3 %fp_imp warning: RF renorm adjust = -5909.50120151529 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.74785904375672 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.74741853929261 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.11383688837187 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16121856828302 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.31706075972896 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.92749390268998 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01266802796759 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18543586915213 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.88404005257228 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.93802332491275 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22259240903638 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.23589841892601 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.36136790188307 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206493634094830 Pqlo = -2.534700165565316E-003 W/cm3 %fp_imp warning: RF renorm adjust = -206.355831502262 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.15756038738366 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.16141114405390 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.96980174323629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06451303555182 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.92221839667054 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08810173983820 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.31487645247134 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.95230893986593 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.35434538181817 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19242845777531 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.19639314780905 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01213456485376 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21035069428560 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.19967269895042 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.35675431185591 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.153539936292949 Pqlo = -1.540436977558677E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.77785939153653 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.08775098108019 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17076607485755 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.76531999914469 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04734273681090 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.19851001317194 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.95061445179769 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00947957798846 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.20467212159881 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.90836492351813 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94685932561786 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21951062991335 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.20386994566363 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.35427276644922 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211793056624829 Pqlo = -5.660149923994659E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.96450106709718 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.08651807634110 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.04459978435272 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11514603797864 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.36275999618776 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.97298156829735 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.35525804464007 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19975625148706 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.25555391479277 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01808065720194 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20618506172303 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16337463146804 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.34899542142913 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.589E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206489259208635 Pqlo = -3.874763607344258E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.94742753177013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.03167001287158 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.93862555519555 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00512732163559 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.90718772915663 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07322166606190 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.31762848817782 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.94039879740185 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00538704463936 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16909651369188 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.88936341103461 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94766226499623 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21279410119138 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.15159230840079 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.34541616682601 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -539.985465689807 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.05594603915884 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.82461361154207 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.76328949178435 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.10589548832189 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16739414236862 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.73291065321326 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01802698254962 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.22867070430295 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.98732052803186 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.36072782595018 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.21677782409037 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.30625904298760 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01839282706459 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20238476602286 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.14009140545863 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.34260653459867 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211732415364306 Pqlo = -6.337592699575080E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.47481331035321 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.13951892314225 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14055572476642 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.40241662193186 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.96496842173093 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01139276124617 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17292153607618 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.90122173310067 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94939619778731 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20726707666076 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.11450153270343 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.33797179451856 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206391420844646 Pqlo = -2.547501126537001E-003 W/cm3 %fp_imp warning: RF renorm adjust = -144.561659435301 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.55928423933186 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.74907377901481 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.98718604165689 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.03240634084516 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.91038699956783 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06530688635333 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.37305002615371 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.97899157856939 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34058555767339 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17660724085972 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.25646085429470 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01820160301210 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19515379805626 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.08604398601123 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.33465095503329 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.152948848065272 Pqlo = -2.734036648542613E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.78224554231129 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.13182603542067 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18556453282187 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.75404668133277 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02478362430775 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.24782362873192 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.97293684429540 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00659215988881 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.18506173042150 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.90587156692713 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.95027654409832 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20372554058016 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.09433353262909 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.33308444562320 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211435861689429 Pqlo = -6.404149637644978E-003 W/cm3 %fp_imp warning: RF renorm adjust = -208.690444046639 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.92841302371457 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.04258603815636 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.02537476440305 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09122204689445 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.39760113535973 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.98887078361733 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34059772887719 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.17742287650140 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.27138013719326 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01705881852665 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19090747635955 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.06019769884799 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32907451780871 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206318439788581 Pqlo = -4.099489801651881E-003 W/cm3 %fp_imp warning: RF renorm adjust = -4702.43000928499 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.02120679326521 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.52574110522302 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.95058619827927 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.98002289727009 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.88476095831236 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05082617439441 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.34187163103296 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.95218225022743 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00079846658862 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.14667668352809 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.87109018759757 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94598272311876 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19780772796921 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05573211653773 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32695101078642 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -211.392560639231 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.46568063372747 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73832565788344 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.75827659096131 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.13848330746076 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17576538999756 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.71207639521539 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.24952017257680 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.99551333807637 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34608487457362 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.19226930432602 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.29656153800874 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01331499502943 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18816362185532 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05055157843290 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32541567030415 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.590E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211377267391287 Pqlo = -6.762076228557887E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.76154089962271 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.248031994208099 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.413785640783699 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.412411847097033E-002 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.11515132994785 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11725360238678 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.41345810974090 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.97020140607454 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00662791604388 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.14939850228225 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.87625301919768 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94489224630209 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19359449668221 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.03098115837042 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32213380439752 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206210061926031 Pqlo = -2.740459910629764E-003 W/cm3 %fp_imp warning: RF renorm adjust = -383.652581142951 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.27965584774180 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70730137747075 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.98875467991879 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00264123214131 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.87906056172934 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04111194664838 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.37687855117172 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.98073639702019 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.32729367853806 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.15338205596905 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.23506159098514 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.01122218429179 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18266658704746 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.01025013138817 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.32021592162560 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.152519265623659 Pqlo = -2.649432175617813E-007 W/cm3 %fp_imp warning: RF renorm adjust = -145.686527790191 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.75548929928203 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.14538157645826 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18554971289051 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.72667005578874 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00352617188131 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.24532087278824 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.97236435788878 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00133875812062 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.16232697744032 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.87908428926459 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94414009477419 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19186758091142 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.02502316955509 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.31980612905866 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.211117303168961 Pqlo = -6.917711759990773E-003 W/cm3 %fp_imp warning: RF renorm adjust = -623.931760884298 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.84898758120784 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.99120656909625 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.99774934521633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06983114479667 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.39236693206277 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.98686498497773 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.15650878964859 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.24358274088180 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.00886097602586 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18002632839735 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99606809705200 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.31689988999050 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.206150603245477 Pqlo = -3.999091676815755E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.08446933751050 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.55873459579542 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.95490127969516 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.95153225094512 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.86027381916106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02570643519530 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.35366833287614 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.95655265697070 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.12950546414326 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.85254611853848 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.93949743189598 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18692992608167 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99545995625649 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.31572934720274 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.123E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.710E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.591E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -585.698233995645 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 7.26928883783738 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66022268045687 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.73058805415652 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 3.14867756442229 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17342208716572 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 3.68643019621118 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 4.24312950737619 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 2.98901565782167 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.17005201570599 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.25959782870918 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.00337813213700 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.17802081399480 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99477085042809 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.31510747186179 at nshe,nfasti = 16 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.657E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.615E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.556E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.544E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.504E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.533E+03 keV on shell 6. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.525E+03 keV on shell 7. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 23584 TA= 4.70000E+01 CPU TIME= 7.99112E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.4696861111112 %check_save_state: izleft hours = 66.4511111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 4.700000E+01 NSTEP= 23584 Hash code: 33541734 ->PRGCHK: bdy curvature ratio at t= 4.8000E+01 seconds is: 9.8433E-02 ->PRGCHK: bdy curvature ratio at t= 4.7950E+01 seconds is: 9.8510E-02 ->PRGCHK: bdy curvature ratio at t= 4.7902E+01 seconds is: 9.8582E-02 % MHDEQ: TG1= 47.000000 ; TG2= 47.902500 ; DTG= 9.025E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1330E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8582E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 47.000000 TO TG2= 47.902500 @ NSTEP 23584 GFRAME TG2 MOMENTS CHECKSUM: 8.0688309802883D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 3= 5.48016E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -6.44023E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -6.44001E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.790250E+01 NSTEP= 24036 Hash code: 17723631 ->PRGCHK: bdy curvature ratio at t= 4.8000E+01 seconds is: 9.8433E-02 % MHDEQ: TG1= 47.902500 ; TG2= 48.000000 ; DTG= 9.750E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2230E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8433E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 47.902500 TO TG2= 48.000000 @ NSTEP 24036 GFRAME TG2 MOMENTS CHECKSUM: 8.0709144957715D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 3= 5.45543E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -6.41129E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -6.41107E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.260E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.716E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.530E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.80562199999986 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.67353869109958 q( 3 )= 7.43524302916985 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9154E+00 8.4348E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %rfqlo: Pich * Pqlo <= 0, shell: 7 Pich = 0.267100618166579 Pqlo = -2.296589061682825E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.73637192381250 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71674086070694 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.82886006114576 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02924850354656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.14667629944727 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.77174470573599 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60095814032372 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -29.3952269066479 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.13436849780162 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.76328611611859 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.85476677443502 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.45484267387308 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97328895205850 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 13 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.73967353737276 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09479517763355 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.42990799561514 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.10676430277167 at nshe,nfasti = 16 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 13012 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.260E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.716E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59339998794944 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.55302528990651 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.83163126253169 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.30307404743919 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17050921879416 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.03351148981852 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -66.3370992290739 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.72582612554745 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96469984507396 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.09437285967086 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.59020417245101 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.41836457509942 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.86269879833946 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.35417030546905 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.08249235661718 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.97612802893599 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.65412971771202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.63626859098308 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.69660457423960 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.11523717893527 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -26.0351468057598 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89993557727155 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.81992592887118 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.39520130747695 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.15685672384497 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.14061331459910 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.21180648635676 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.07069270162896 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.53617952018064 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.493418356565206 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03915679021382 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.55097337172617 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.86606836109736 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.41937985378026 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.95373809911807 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.41776541494875 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.12873219385883 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.09200340207073 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.45134587239962 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.44622939352016 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.480594268174356 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.48826465251118 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.69704427628305 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.08175720118261 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -23.5520202968676 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.61432600875557 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.99562418959670 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.31928907681142 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.80104536280323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.62322711770755 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.57060162134368 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.83805855866465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -135.581287792044 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.96266917620457 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.42482256480233 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.468732454877751 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.79902924182817 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.32896177172968 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.84269700696178 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.16380459448113 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.03171918654765 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.16898502392682 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.23961177924535 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.33072643333399 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.452589120751578 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.37263135684034 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.66834769485431 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.06172197009062 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -17.0626038840171 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.85980297417727 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.15410636987048 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.39609668466333 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.11859600204614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.63420862033857 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.22176042346202 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -172.398807214217 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.75649879436565 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.36384412767948 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.448538087603434 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.80458950498256 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.30134613248327 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.83999252223398 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.99240106544473 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98040639201061 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.25068527344387 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.13986327676211 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.25726113153121 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.432655346329740 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.28831221602259 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.64082458924605 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.04384887962209 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -12.7713356990299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.27672990635402 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.34843642125068 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.56633452103258 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 9.08494095801781 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.76792504102499 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -73.8917606107206 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.75022222506563 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.35062103890901 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.439479945539076 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.85166778537498 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.31115284704950 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.88680520110401 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.89180600090931 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95830328892308 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.499110933579988 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32102041653046 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.09449731601504 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.20556872409134 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.418195900237971 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22553877128009 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.61664277480687 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.02638958587638 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -11.1724792169036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04337705268846 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23942035697559 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.76754514076571 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.40115507635294 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -44.9017304884443 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.78639504525846 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.36762665475824 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.437205916671243 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.92416907793836 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.34052957084241 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 5.95731586353706 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.84804283293915 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95661615721104 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.483361568899115 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29865513092410 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.08157547351887 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17121189346107 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.407620317028744 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17765777550902 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.59579797281381 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.00969451245439 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -10.1554823945361 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.45040472677723 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.46314031800025 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89423974234379 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.15149542272315 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -33.0046140730298 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.83779702819748 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.40167119180072 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.438882934927482 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.00844324865383 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.37754763130779 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.02548133367265 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.90840812024451 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98310983721799 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.477460403219666 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30686851627143 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.09186597132951 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15016023399113 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.400317488527587 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14126656000627 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.57862748464235 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -8.94341095132858 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.50014443386203 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.81425351263555 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.00302613546007 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.01376706564314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.02425217644051 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -26.6369000319577 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.89602851029018 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.44922910590297 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.442990525885740 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.10275714709090 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.42018502873201 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.09919037492492 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 5.97960096160112 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01460182090949 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.474132419687008 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32349730960907 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.11476939083130 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13798724329033 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.395048311154211 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.11259561753416 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.56440151756840 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = -8.52188713048208 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.12592890114617 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.84757405322325 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.09384911085291 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09023664871836 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -22.7093829427521 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.95851258465660 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.50522300855192 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.448577761066135 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.20295470701736 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.46697646576334 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 6.17879121202640 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.05545385998972 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04871786300313 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 0.472092646490594 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34465232623829 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.14529690131249 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13141852727808 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 0.391091125746936 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08980163666553 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.55257631105936 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.260E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.716E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.189279334139660 Pqlo = -7.384511278066629E-003 W/cm3 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.257664686253777 Pqlo = -3.040722315118135E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69342589968823 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.37214334370233 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -18.7994385130849 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.65436747229572 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.43532323959731 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.02419936986065 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08928439246352 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.03060679506405 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.21349005831559 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 6.82944398761724 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.46227523480765 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29221115565150 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.55334065710646 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.63818522294544 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58881193244220 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79888308517949 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.21042331242631 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65613146076214 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.44178508312137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -20.0608667520184 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.65128080578836 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -330.726695584918 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 16.2348871490491 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.99503110988229 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.04027672540956 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10103422284501 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.05772495585444 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.20933774542074 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 7.42940104015992 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.60806684647702 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18302153291528 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.55790243741542 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.69750538129913 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58298521132730 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79473030534853 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.20200502511603 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63115080356083 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45582916227445 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -18.0427724805439 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63892565084854 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.50732746993905 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.03559191367197 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10290077814004 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.06667447226816 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.19433327383245 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 7.73305176671685 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.68132969478815 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10273196587914 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.63544411125193 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.71933758435970 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58189127526796 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79415680849312 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.19488475888752 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.58194672662236 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45414056492084 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -17.9987550143671 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.66570171112323 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -136.719004742447 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 17.0435683270227 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.15518869831758 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12415428883864 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.10937376261640 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.22395632567480 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 7.94238264620117 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.73723182634453 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.04930158352839 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.69296420001445 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.73406246926587 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58144880831814 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79414383739373 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.18882258591162 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.58804455761420 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46052190712776 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -16.2045415390313 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.64788039796751 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.56619422599860 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.16366269279344 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12632239515053 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.12531131479438 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.24268788980537 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.09109095616795 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.77649575211565 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.01437236437738 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.73910857855307 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.74487433211979 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58145486265841 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79459554994858 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.18373024077821 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56653473171948 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46364737509987 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -16.2498338528353 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.68024698828486 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -76.1954083300083 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 17.9523822684438 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.30091434042019 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14825480227887 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.17550957891543 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.29445250928540 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.22901069085572 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.81897491530106 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.78444121408219 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.75684782519120 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58177635644369 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79523610222757 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.17941267215949 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59266588699905 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47651547916006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -14.7867023791297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -2007.12478242017 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -573.664559474226 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 17.1950104313854 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.95537607522772 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.30660790109560 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14908648994716 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.19382707285308 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.33296659083001 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.32157545105845 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.84819655834878 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.82334690696974 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.76678820428207 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58241413216835 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79604659396866 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.17574182772729 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -131.692595760336 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 10.6485703708105 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.72323022850179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06391578878102 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41756490986055 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.405267490233143 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78182976572723 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.39496549178541 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.21261206079837 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13749434213072 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.18314632829669 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.33441242756931 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.35416219331683 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.85619377079959 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.84948933790621 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.77119376590187 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58289703326451 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79695139504921 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.17257527996189 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.52370308887119 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45159192231893 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -13.3733390404901 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -344.476736358150 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -53.0386714810274 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 19.1070640116710 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.46952091040009 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16419639986300 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24955797504667 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.41842535082914 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.45877165822825 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.89762332560796 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.88670993963637 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78249676024154 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58315358059328 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79760417734741 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16979386774621 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -137.978541710408 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 10.8453818514201 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.78543411768954 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04314289244053 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.39607263482015 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.403880386573746 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84335928977321 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -321.111324527598 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 17.6178134796030 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72966936676419 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.34172322886487 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15360873207886 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24313130799290 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.43584869590307 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.52442400909625 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.91453992399639 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.91579790538210 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.78847038208806 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58511996323515 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.79890222192644 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16752601420798 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55480268732770 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45525814212638 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11.9872473200833 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -138.345179567664 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -140.036679057566 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 18.3476864383866 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.91543325565834 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.48968090587110 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16138432371408 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27711264221479 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.49706747432620 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.61801675223975 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.94987553418440 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.94993618228818 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.79871090991147 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58669957356560 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80008665091782 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16557741678120 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -83.5804987856711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 11.2764201488763 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.94220630846859 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07327654216754 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.39215013000935 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.415703052375934 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.05033364974587 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -207.452684391969 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 18.1380938947136 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.67720634272266 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.40854798067679 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15514795571577 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27693668895097 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.51674339158436 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.68647053420917 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.96807622343063 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 5.97783658019525 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.80488102004921 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.58958369695068 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80179762715003 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16402958945427 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57266905252733 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45840856904557 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11.7516925029226 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -107.257837151844 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -96.6618503222607 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 19.0586608259572 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.90777041062831 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.57457746709722 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16641007038511 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.31702371805470 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.58546088975321 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.78647439107974 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.00552387585318 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.01178992304152 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.81564406174623 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.59214913400360 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80338883256518 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16272822001995 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -63.0242537727659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 11.6339985460498 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.08153581223773 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09775104594221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -461.112952797310 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.25894575199738 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.423566942378758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.20930341544053 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -117.860501466178 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 18.8519586134589 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.67324937736262 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.50014412294411 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16230791058219 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.31996495600439 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.60990475708734 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.85658225829363 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.02444654105091 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.04003716677602 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.82242891963201 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.59599626616887 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80548528551544 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16175871145083 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56661839841747 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45464066525778 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11.5011608476278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -89.7062304926921 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -72.0307317447906 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 19.7789556239170 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.90820495196021 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.67256310042191 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17257819640067 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.36366671052089 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.68426509776493 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.95998011344259 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.06306196749023 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.07394891928950 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.83382681418019 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.59943116786278 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80741907004836 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16096921350476 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -58.0675094769295 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 11.8176758911556 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.15317257690236 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10189773567348 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -546.865333924380 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.22996893588555 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430150007873623 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.33841889177702 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -86.6707275122478 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 19.5018222263604 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.66341074729853 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.58676294083954 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16837500497459 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.36406476976512 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.70833991491269 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.02917206161938 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.08145162418445 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.10199928492127 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.84092757702333 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.60408559807028 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.80982686151696 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16045327747668 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57172289563630 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.44531962373400 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11.3205284350597 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -78.6889980747279 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -60.2105220319802 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.90905469265390 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.76038442975510 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17934273112130 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.40758267959337 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.78351828976791 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.13065331447706 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.11959931230697 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.13547145695827 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.85251195835931 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.60817082122118 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.81201482678983 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.16005831183614 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -52.6554433748405 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 12.0600320945642 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.24478626824887 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11269318695953 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -297.658657356485 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.22253770615411 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -1770.60642164294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -279.174975886190 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -69.4495678258099 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.66196727214264 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.67243219574469 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17574342869677 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.40770657846462 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 7.80693634754122 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.19670150742650 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.13700867174379 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.16293195442440 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.85977691405509 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.61336058284667 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.81463277871826 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.15988468635804 at nshe,nfasti = 16 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.260E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.716E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.361682117476183 Pqlo = -1.639817678367487E-002 W/cm3 %fp_imp warning: RF renorm adjust = 5.36613745244437 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.26431682316509 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.08199399585103 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.02557189180919 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = -229.482777469774 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 10.8662434484953 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.74361536845110 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.86813452052787 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26629880001138 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -108.246656391727 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -745.267356712043 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -74.8035542347869 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71854231847881 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.88559001095635 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25343068265556 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.56254517613580 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.02208027274887 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.35958026942382 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.16186049290980 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.23394051444555 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.19360779564282 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.91971540711391 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.88631204830350 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.95335736246127 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27526492000124 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -7.72882575193698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -45.9037821950331 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -267.362578365337 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -21.8026517811367 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -41.1635907884855 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 10.7105764808530 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.69357411899122 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73222097939220 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -135.269689373202 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.97738018767100 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -128.632871496376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -11693.3230270821 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -63.8114033270397 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.61317235728757 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.86679646049511 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24310877545399 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.53451616334494 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.01035055988050 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.23000147564616 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.13675761922155 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28117467273949 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.27073626650423 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.94186630010087 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.89501775917992 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.95479903966975 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27516768375231 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -12.4950761700126 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -294.144317333881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -1174.50400155943 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -105.870675679478 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -354.432264180431 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.63665559890561 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.22354383298471 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.52456014625051 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -394.519043342823 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.89444044602274 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -216.255224495306 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.72969909580937 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -65.2850858746418 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54200979980804 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.82649229175117 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22824903567337 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.52167879552846 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.02217440944836 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.18735940778419 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.13386858902524 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.31139952267195 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.29341786411268 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.94884751239244 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.89977595657337 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.95693905931009 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27489631030520 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -23.4764058488325 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -1013.08996431102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50505.8133152725 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13465033712243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -12.8492892754634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -136.174226605490 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -42.4626166639832 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.84996099500871 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.98639006065642 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23185211600310 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.55458512701246 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.10989851489792 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.25319513331612 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.16698732153844 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34076527511272 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.32607827642464 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.96037254257270 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.90458917040173 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.95847219868770 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27456320932662 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -30.6017874757463 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -3249.72065852735 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -28.6140356667685 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -39.9587372953366 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -6305.49496552876 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -51.9813351361557 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.63745522586326 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.92434475786617 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22982534002466 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.55750928645123 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.15249554434712 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.28391945707214 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.18067214511008 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35430692667084 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.35352435328177 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.96833875213296 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.91062108206678 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.96034523468213 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27441763127576 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -24.2776202799597 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -315.298010265513 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -358.291750893301 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -132.120831932410 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -116.015078851864 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.74068480339293 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -60.0374583187162 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.50998600697231 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.86884561322338 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.21950895210243 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.54782975386629 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.16420526686528 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.31348072393160 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.19175983289376 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36383272997900 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.37466370873892 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.97407644102450 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.91592223843790 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.96224882352845 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27437197111470 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -48.1662326886119 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -578.953294006696 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -656.157218663929 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -12.7957384853045 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -131.158479066435 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -41.7676896104824 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.80890150457268 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.03683485178909 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22812432867057 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.58472575721343 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.24438899835026 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.41159624996005 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.22977075953180 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37882860639663 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.40790104188840 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.98574137229511 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.92121168478755 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.96398626159871 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27438348016077 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -51.6251496467954 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -24.5816968094601 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -39.0454995350815 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -1299.33991699408 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -47.0753462090259 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.60911165975805 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.99985993141069 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23013573049777 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.59691087154501 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.28442201584840 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.46411758528240 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.24656173889773 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38174858428748 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.43624663321057 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.99430111739095 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.92772100959219 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.96614864054693 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27454401468826 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -13.3968121906533 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -51.3944727899317 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -95.1443038973298 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -1363.28697690906 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.7614260848705 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -100.458602121321 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68478007143705 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -51.7650046803480 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48823492910501 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.96253709133920 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22268899766589 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.59342333785426 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.29370458747510 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.50892769945637 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.25961529369510 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38292286740708 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.45792560656646 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.00058223411534 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.93353157587749 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.96835095201941 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27476402598970 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -29.4799010971168 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -393.617920471985 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -179.302334846732 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -27344.1455360307 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -12.3092401205191 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -106.403881630195 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -37.4467401861904 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.79057604515606 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.13955692668109 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23379921239858 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.63445485294318 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.37258190390590 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.62009696300608 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.29906477478660 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.39135007073856 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.49021222982085 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.01228801865079 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.93920938360423 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.97035416829236 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27500735255244 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -86.6850861804375 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -320.266920578096 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -297.449087014547 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -37.7292280325739 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -645.661435533018 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -42.4189205022208 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.59117772042756 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.07914640660295 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23519189099215 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.64497936000551 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.40761169133932 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.67994939141016 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.31636857847730 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38899486298721 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.51826536623992 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02100800344698 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.94603809481734 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.97274144877239 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27537299820903 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -74.8369208086263 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -29.0862000752339 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -88.4309549661103 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -6266.88958709411 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -45.3408004622631 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47333961825459 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.05949277948962 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22984642131934 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.64520714957735 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.41468000157251 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.72913976172874 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.32948331452275 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38523507502277 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.53934429546752 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.02740872899662 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95213637436483 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.97513895478804 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27577507471505 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -13.9820450608673 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50.9004932542881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -86.4561119509057 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -821.972927292263 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -49.9415946286850 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -174.647023957856 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50723514826475 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -45.6454509091656 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.41465118305909 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.04892200193465 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.22446749874564 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.64497659924795 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.42013399339828 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.77857664495228 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.34282422231825 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38306376350360 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.55752382165554 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.03283631975453 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.95768429327166 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.97740536978305 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27617727097016 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -34.0950055107967 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -240.093712049314 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -150.669868643403 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -11.6742654041435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -84.1843235376471 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -32.7649590060804 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75598463593287 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.26503297733397 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24084360643890 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.69428020701161 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.50702979038921 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.90034068015621 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.38482257391464 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38776921165152 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.58876809375256 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.04461129694169 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.96329307492034 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.97943239599768 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27657578663505 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -63.4010036385571 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -29.1787455196922 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -32.9589610934399 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -214.701818351591 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -35.6394460106866 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56650253005302 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.22939076516517 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24605904489247 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.71254196558235 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.54832053129279 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.96505956382149 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.40291542924193 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.38122263629463 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.61651711141407 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.05376423420496 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.97020191049172 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.98187107459480 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27708576030017 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -13.7813439662398 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.6208583113366 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.5588532173002 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -605.914186914598 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.1008760941724 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -73.1170661220312 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -407.759066017723 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -38.0892950729665 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.45916446221892 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.19270723866699 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24080368822565 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.71211717194397 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.55339806384829 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.41615994131555 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.37376447075161 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.63697665116529 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.06027854151621 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.97629496169017 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.98430746796474 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27761882149866 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -35.5510926486141 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -335.155450326566 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -157.680321140108 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -149.382175983351 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -131.270254065036 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -580.699894989674 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -38.6847728077138 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.40685678661243 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.17092897016859 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23560316199292 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.71128468465879 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.55606961570898 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.42944499298510 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36851059385360 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.65428396086885 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.06567745452056 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.98178819196503 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.98659770315588 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27813848220554 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -144.665849273217 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -299.691218348136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -242.576545787853 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -642.499107249649 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -176.012583614572 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -578.532705397671 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -38.1407191921297 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.37843965774292 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.17180599214998 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23276928747994 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.71501321718703 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.56587850989757 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.44392680281481 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36501991700175 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.67120529015459 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.07098617511735 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.98702650184685 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.98874994626213 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27864052196034 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -1085.33867263516 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -327.278249509262 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -256.756029436219 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -196.284556424798 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -493.809410863567 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -37.1451982452555 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36099364233687 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.18488135351215 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23166061926461 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.72238889441024 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.58182798838235 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.45941028745685 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.36226604721503 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.68851748635110 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.07647845528544 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99216551073008 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.99080319433817 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27913021227709 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -138.557395797522 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -33.1180758528665 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -171.853544444982 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -306.947648733293 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -35.5008602872586 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.35060354710657 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.22920539833088 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23309258105323 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.73602704702681 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.60390142268068 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.47570683307340 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35920610529386 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.70628552773395 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08236242963769 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.99728259433021 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.99279675560808 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.27961309616746 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -14.5785406470815 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -49.6132373844135 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.1305643726864 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -559.400532607842 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50.8334971440975 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -160.328363059581 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -261.620242865655 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -34.3132152264143 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34529840068989 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.25810011164644 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23455922546657 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.74862225793120 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.62671177774057 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.49225273101122 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35584419757336 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.72449962602911 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.08847658331007 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.00233824866049 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.99474048505263 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28009242475483 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -41.5158745205608 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -261.146990321232 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -147.266024589992 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -168.237464050758 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -163.188769136032 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -248.871877025804 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -33.3673057741193 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34162771763071 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.27621542033246 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23588754161191 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.76041198245707 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.65003962308789 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.50914893449975 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.35205940551012 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.74285456619888 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.09464700149965 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.00732519120738 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.99664575486951 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28057084804979 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -254.865814549153 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -216.405286599738 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -202.822985828684 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -712.314356466739 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -159.630338329298 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -234.197118202109 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -32.5170265789344 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.33901470959909 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.29885918303267 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23764068117981 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.77306307845715 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.67472277886621 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.52638001338801 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34785949290613 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.76179653477778 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.10099668300554 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.01233295637393 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.99852851844401 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28105143729648 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -153.337095960254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -217.974352166068 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -31.7202985017154 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.33731010546770 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.32399733465447 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23980474126068 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.78639703045781 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.69992322881659 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.54379217526803 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.34308500529114 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.78120686102024 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.10748241056994 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.01735664088276 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00039784659630 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28153593433153 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.80077773859002 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -33.3211465469740 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -59.6397544786631 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -300.310892499293 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -18.3005001772821 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -120.113829283185 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -160.816793208761 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -30.4182977512606 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.33891876085213 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.39258527450280 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24429064289789 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.80631566724688 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.72890810680449 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.56152338043437 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33698940205463 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.80084089257732 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.11429977416211 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.02242183809691 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00226706290572 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28202469012354 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -21.4311487926645 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -99.6447939431792 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -104.728351153904 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -2222.66249070210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -70.1770335557596 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -121.889349741541 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -157.074074240272 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -29.6911839060143 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34272547766985 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.40973863995874 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24730351242398 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.81952321974233 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.75240413978930 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.57919034064839 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.33022923155253 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.81943090139200 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12082562102259 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.02729125192508 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00410667320716 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28251449880515 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -67.5038710631474 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -268.542801169544 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -164.277380212645 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -197.158389309058 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -119.477449516883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -155.109264492646 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -29.0844412314003 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34514112251424 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.43016559854301 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25017280984838 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.83270362462491 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.77624542998719 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.59694845763266 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.32307181874475 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.83829303653981 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.12733445455824 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.03214249450200 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00592348048431 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28300583715345 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -636.769601203439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -161.350893503476 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -179.023602765678 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -479.156196462430 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -115.967487271632 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -151.311533144730 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -28.5499620761665 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34661728118324 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.45310233246104 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25306517537554 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.84606782540999 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.79994563458230 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.61465143718909 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.31554692138442 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.85734929454914 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.13384652761126 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.03699582839815 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00772471983934 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28349941044721 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -1014.61003597551 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -112.159586186884 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -146.270784132516 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -28.0553568261431 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34791982698432 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.47722101505914 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25599702612081 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.85947294915302 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.82303796063140 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.63218240291454 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.30750969460574 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.87635714435598 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14032151338595 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.04182907316102 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.00951065537759 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28399454839366 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.71940036478090 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.7688373997734 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.0929394930556 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -206.505309237652 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -41.2065322868620 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -99.7834483020727 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -132.184259614316 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -27.4353430446070 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.35081269663350 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.51961339904470 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25968474556785 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.87533465263029 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.84713052120730 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.64962762143282 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.29888277179380 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.89534021788328 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.14679981813145 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.04665385187410 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01128505635880 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28449061234285 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -26.4010760952030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -76.8454134612989 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -86.1941469047995 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -724.710064498622 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -97.9634089742596 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -98.4764050656785 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -127.524937204381 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -26.9402223896284 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.35435108844307 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.54168162446593 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26295633783676 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.88857987106477 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.86819702384001 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.66664899135676 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28987855567695 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.91347046419991 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.15302077964690 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05133435477752 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01303199084829 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28498486370853 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -97.2982566384510 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -167.680135583304 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -132.344776248673 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -2791.33782277114 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -209.524826377476 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -96.2232795778394 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -124.160853330482 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -26.5114107625918 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.35764511033064 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.56424238701225 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26614876518052 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.90144016355673 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.88856868662085 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.68320739875703 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.28060918631896 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.93143517584968 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.15914833580180 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.05594680344189 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01475045044755 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28547636627590 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -434.778031596819 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -221.931730594949 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -150.852434819683 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -7726.57645072537 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -353.518859932468 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -93.5206279909638 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -120.711025377895 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -26.1175621910027 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36066427368568 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.58760006526646 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26934504750988 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.91418812136440 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.90831179606431 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.69941695088103 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.27103448022597 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.94931204275050 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.16521253095180 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.06050259972831 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01644288658725 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28596493672701 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -459.694335491854 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -90.6521447052767 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -117.073246307173 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -25.7451076068449 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36368468045267 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.61152873280428 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27255857116347 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.92686084543109 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.92733426351000 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.71531259736762 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.26124656818655 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.96701679937276 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17121539526488 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.06499486350220 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01811052577564 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28645029967151 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.66944988069808 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.1607534506718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -45.9027571172147 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -196.308108443415 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -39.3985937909932 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -605.347111088979 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -153.270068969992 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -82.2516107077094 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -107.890235326971 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -25.2670399041615 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36789261373348 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.65321941375963 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27646794606610 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.94193000601395 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.94742166953292 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.73116499210523 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.25090687734362 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.98473066033019 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.17729075585953 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.06944550510829 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.01975966618448 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28693248842955 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -27.5414607218842 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -82.2484189931027 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -87.4985849375594 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -719.262954239641 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -55.0995886587066 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.43044465146286 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -139.477903356957 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -104.085598376949 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -28.4333131124660 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.17782493914111 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.57408088875299 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26400318079489 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.93408429458108 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.93869739724753 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.73441212274667 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.24053837468723 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 6.99692494260241 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18012302693106 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.07375272049612 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02144301602125 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28741743308137 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -129.878804790038 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -176.054773861392 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -131.999795239497 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -2278.06959746697 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -150.754801996509 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -343.296804920253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -134.870808016996 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -27.6077219929717 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23161888948919 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.56923017918635 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26104692148322 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.93608114645655 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.94328725759877 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.74613533770792 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.23342865635233 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.01034400957806 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18377750980284 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.07739149737391 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02289309943164 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28785316419049 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -404.592086406288 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -177.676625002503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -123.801818143711 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -26.4146247915380 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27554285009938 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.60780765219733 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.26495701587046 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.94711555328223 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.95933829316984 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.76007032269328 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22612679938243 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.02492727904216 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.18849329692466 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.08111460678009 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02426461558232 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28826817097598 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.95101952829720 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.3192461136045 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -45.7005966517106 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -190.195486348738 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -41.7149574158262 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -110.363244115969 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -106.377445412522 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -25.3098231946622 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30809795097734 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.66883700419519 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27157269569714 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.96416200478231 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 8.98124421971107 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.77533743232534 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21724748023071 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.04056682048835 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19405082325823 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.08494011536189 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02561856124813 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28867410493465 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -30.2251347319854 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -67.4027044335355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.7978441409535 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -519.298621761668 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -96.0731772946311 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -93.1408099827381 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -99.6372191549979 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -24.5400338522015 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.33190140097217 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.70755209743612 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27796718033857 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.97951543379698 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.00141766416073 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.79082539816843 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20706256436600 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.05614733310547 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.19979789689806 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.08871189738549 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02696618846450 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28907615984469 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -148.895372223416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -119.689304361019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -112.361273576374 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -1058.51128539297 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -184.780895577930 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -83.9887318968961 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -95.8207610165390 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -23.9870284020509 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34924586685358 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.74204220375977 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28381114822525 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.99432589294202 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.02073711893949 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.80630630102621 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19585164806204 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.07201096002629 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.20560593576845 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.09249119231159 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02831668492502 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28947825168971 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -279.676578374159 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -2167.24054022025 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -126.725746422979 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -78.3757545270615 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -93.0142063438238 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -23.5624532513115 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36232562910660 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.77332787664414 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28911786860507 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.00842689998242 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.03872176667136 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.82150823426201 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18375194458448 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.08791412556184 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21137577488945 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.09626664960659 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.02967149165212 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.28988221885583 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.89253942492502 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -27.3051033500470 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -46.3121303802350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -192.238703090853 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -32.2727435482408 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.41051994655140 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -114.063794306402 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -86.8081461308554 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -26.1313275666212 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.17807405056929 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.71174289786943 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27770017195741 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.00341620892671 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.03056442787436 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.82416486342067 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.17174941311382 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.09948633909923 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21405678655595 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.10007735177268 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03110064765243 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29029655095639 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -29.8986745754608 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -69.2251287448198 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -79.7152531613433 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -523.008239403272 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.0065176623377 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -213.142166154362 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -106.423840493225 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -25.4064290235379 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23733611062306 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.70864916780852 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27621407661236 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.00608645338322 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.03324347799866 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.83529564667749 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.16272350336090 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.11060425395604 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.21739342622237 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.10315672496706 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03231351143679 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29066658223378 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -203.902815503520 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -118.724966319622 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -111.101058373356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -976.707817708049 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -177.936829357064 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -133.095023738734 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -99.7189099118688 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -24.3691446403386 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28618723667697 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.74928283923186 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28122463391759 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.01713040083535 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.04712867209026 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.84860662871702 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.15389218960592 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.12287936310905 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22172972708324 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.10633300423867 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03346149134588 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29102013061973 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -316.830509912509 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -96.8533770912412 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -92.2868338460928 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -23.5343099637793 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.32149348806746 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.79470731678272 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28808995371495 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.03133273670434 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.06485382998098 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.499462115252526 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.86286150960779 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.14410012803943 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.13642162209827 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.22673810325116 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.10958897492758 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03459890415045 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29136815517386 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.87447829197524 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -25.4647924831839 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -44.1067212499282 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -177.659143100692 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -39.4628592961952 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -6622.20322779860 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -110.435874218570 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -76.9312855821534 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -83.9895502452151 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -22.8283170742163 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34759465105515 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.85396861772704 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.29547719783741 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.04905742863142 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.08443843907510 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.498491315735423 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.87767777935075 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13306835986409 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.15089211231217 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23220721304462 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.11292419250972 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03575133258058 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29171614785260 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -31.1441205427281 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -69.3959942658535 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.9979954277735 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -492.143516855947 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -53.7561307818629 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.29251600774256 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -117.894095084142 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -81.0802554489895 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -6998.99855388056 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -25.1715153387703 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.17170904935674 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.77816596809432 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28455787387603 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.04238905785405 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.07337680577980 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.498288999581147 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.87940039099080 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.12247498144019 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.16044028672445 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23443564365175 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.11620902373703 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03697698974799 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29207297552976 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -208.381148488751 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -121.289019890058 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -111.125064599070 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -932.205153088417 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -129.644472912832 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.36884305142956 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -24.2183480339359 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23864572762677 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.78648802310499 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28659517230980 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.04682377162069 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.07433869665648 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.496983063876363 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.88995927574354 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.11310277989519 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.16956934036937 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.23778269431780 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.11884461776473 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03801164282479 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29238681581310 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.91237221739362 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -41.1568538355681 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -265.349156356223 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -19.3474543993601 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71615783979080 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.20883347664843 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.33397652292989 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13085235623009 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.19602426255973 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.496325591769334 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.93732066793125 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.10616887100360 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.19754576393882 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.24919613541616 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.12189973415218 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.03884899806531 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29268826196476 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.54549928658313 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -28.1953641242841 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -47.6809425786944 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -205.831058089300 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -17.4019484339245 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -120.630764331766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -133.029974550288 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -27.8378145947669 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -60.1388445222782 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -739.007219851829 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -19.7209882604115 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.59904748702899 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.17720969414743 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34912389601576 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.16045603907011 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.24143045272841 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.494269367088638 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.95826567147935 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.08556503035835 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.22604728293498 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.25978242895300 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.12703909148896 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04034197080061 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29312853485064 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -24.9990488093381 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.8500420988213 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -79.4391072389082 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -525.421524576394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -38.6368276142920 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.78560658353724 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -314.119069205559 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -72.4371802174057 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -2583.44657511871 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -22.8023220108046 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.32228208854029 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.01483716903182 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.33275090390795 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14314334422942 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.20537685525196 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493980509259574 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.95777147890695 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.06490882594787 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.23875309817920 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.26349635945427 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.13122819860816 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04199754013558 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29360338727700 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -95.6717800769603 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -104.864352193030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -107.069364919700 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -871.509040021567 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -88.8795978808096 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.497392877287266 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.53611059337530 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -22.6801388117501 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34401861522777 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.97054094769818 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32529917367874 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13290453901914 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.17752134899082 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.493025625664709 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 4.96443418878378 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.04979884752561 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.24603846789831 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.26595944739949 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.13411374679203 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04333738383593 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29401936361239 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.85764747850477 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -40.2472005599506 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -250.102249962481 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.6633607102071 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.79135742044091 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.35832077481940 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36332001413021 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.20267229189553 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.27466687079656 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.492694092973228 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.03997628500307 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.26967045277560 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.27543953628441 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.13702723694801 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04433578223286 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29439441112605 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.37247415449649 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -27.5631138309781 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -46.9914817016702 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -202.863825643455 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -16.9639919631884 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.6589041394468 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -116.781365678962 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -26.5234383505907 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -57.7138768414932 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -611.111956901885 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -19.2023198006977 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.65472049466432 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.29824663155359 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37357551138823 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.22143846506178 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.30119678855125 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.490928029909642 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.01934361220414 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.29298742563603 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.28401054335978 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.14174174215049 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04585291213041 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29487328733456 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -23.8070255637239 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -62.9595620628125 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -77.7291067480781 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -502.453187761058 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -36.5983324580627 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.92971445497747 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -195.522189600975 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -69.1129832048332 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -1522.02931293496 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -22.2444243127032 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36324255025607 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.11307639462597 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.35365706066963 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.19558133284129 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.25131944508303 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.490833304823940 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.00039058089954 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.30047595836691 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.28583806826878 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.14540479937592 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04743947283379 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29535780646806 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -82.8718549701565 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -98.2956976826396 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -104.083708335566 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -809.627929221380 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -80.4090943704077 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.490530911277384 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.49026777012951 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -22.1545146975954 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.38013749544458 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.05588868329238 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34366578992518 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.17913005962670 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.21378586984216 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.490041638444152 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.30309302673551 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.28667672731916 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.14772844497525 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04865244370324 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29576195584670 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -3105.24656338137 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -79.0499518978360 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -94.3889940627353 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -600.810075928841 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -1099.69800496377 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.69525367685025 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -39.1702470292137 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -234.088533209268 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.2351571896210 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.83306724046817 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.45154312134063 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38093120325145 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.24751703708424 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.31397633656893 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.490006190359812 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.32006619942396 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.29456031225655 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.14950446741655 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.04923430681859 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29604415577376 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -198.269237369147 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -96.2541314450323 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -140.021080744742 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -26.3486446476240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -60.0507489512710 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -712.647960557231 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.9890370840790 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.68832592073861 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.33019968894904 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38861395045695 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.25670671930128 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.33542238439458 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.488490380111134 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.33961888187762 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.30166661086471 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.15338982041446 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05039934620541 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29642953150886 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.45411280406110 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -24.5290294444059 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -42.3253667186077 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -165.441126935970 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -28.1212741510195 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.01234243470948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -150.368063659699 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -69.5956130362758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -1615.60837631383 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.9205280655474 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.38918428840693 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.16948389363514 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36779819753154 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.23323745635991 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.29748075974949 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.488553627948100 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.34161545979398 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.30222563531347 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.15579788443556 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05136870500395 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29674336689085 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -28.6516710968922 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -55.5137561043084 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -69.3454189428824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -373.363685602190 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -60.0652473913133 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.486747596816468 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.46662227464304 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.8263968109282 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.40342170383416 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.11596424362033 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.35669773407242 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.21695130594411 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.26688001167037 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.487895543518606 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.34008265335682 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.30207673163100 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.15696167368624 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05198751485287 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29696099465158 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -158.501447450098 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.9807631459988 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -81.6371188818511 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -452.994756378970 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -291.508096899327 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.59157831590040 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -38.5375364987551 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -224.973352593996 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.9526517985121 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.86090280819885 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.52168144339151 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.39354182711511 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.28503224153408 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.36640495121980 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.487894610859025 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.35612029257979 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.30946138381141 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.15816593224370 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05223719074272 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29711469292245 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -43780.0195020776 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -72.4071431411521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -87.1141208305916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -498.896100374928 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -159.901730056689 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -83.4104321245702 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -131.954417628086 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -25.6031399207492 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -58.6505811621433 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -636.840937572736 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.6997079115834 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71293427657719 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.39634792203261 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.40075908902597 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.29328152610958 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.38789120357614 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.486525727093421 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.37373227978739 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.31598056349587 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16140962533318 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05308393904668 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29738204537296 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -63.7777749115093 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.98885668035695 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -147.463411533635 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -69.8698955056926 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -1623.30754612968 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.6320897220247 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.40910754190069 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.21206578856823 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37860126236876 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.26506174750361 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.34560698729924 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.486720662233856 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.37435908393589 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.31587263331738 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16333660643757 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05382009966556 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29760196159902 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.63436621934037 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -24.1464932728010 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -42.1331188449827 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -164.051151608646 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -32.9704842386077 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484200553875004 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.44992137771182 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.4954751692802 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.42207321722581 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.17590609491006 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.36728736202972 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.25010079429179 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.31571902932083 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.486058537891892 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.37208438872796 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.31532287960252 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16417308254332 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05424673270522 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29773918945494 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -29.6885931407411 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -45.5404997583224 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -61.8325049770141 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -301.657023375633 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -100.412761928256 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.49297612885350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -37.7210879161567 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -213.918868045373 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.6701287049959 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.88456001512280 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.59062885139624 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.40428755768754 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.31832284976103 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.41502039588518 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.486156672454026 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.38689713300042 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.32231405858274 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16499797543910 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05433261638108 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29782315538100 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -130.098800197803 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -63.0517776296312 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -78.8521343548237 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -421.821331872854 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -109.731467743323 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -72.5068463053505 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -121.290125936802 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -24.9267966269115 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -56.9244052633804 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -559.630017690674 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.4031712213008 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73458688391799 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.46027623139720 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41126168980410 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.32559547183274 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.43540880580612 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.484866144925723 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.40358365492931 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.32848549357247 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16790612238778 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05503729493905 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29802954081457 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -484.231479932457 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -88.6372356745770 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -95.5417689503237 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -595.286430615415 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -59.1049481375826 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.03711365427583 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -129.925145004519 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -67.6560204792965 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -1225.12239975895 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.2622012156223 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.42735331659207 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.26947231356592 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38852674612947 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.29581163780366 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.39124433872123 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.485130948763289 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.40316650708412 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.32796102306797 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.16952977177990 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05564882455671 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29819571121225 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -104.963277881922 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481036894173688 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.43096257307719 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -21.2014184534911 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.43961896332767 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.21172290478670 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.37628307337337 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.27671052257719 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.35773639838578 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.484612193868959 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.39959670530239 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.32684929333384 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17005208672209 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05596019270384 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29828535414864 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.50983670387373 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -22.0935519696701 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -39.2786238590404 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -150.853333179629 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -39.2783305482157 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.39381716468990 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -36.9359997450148 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -204.074413990216 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.4204745818419 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.90549035800608 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.65721383970380 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41380736054253 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.34801514548284 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.45970941095537 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.484669707077203 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.41442838573966 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.33369992752351 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17073377672333 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05596189825643 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29833009176222 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -29.1010759587368 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -44.8670604906754 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -60.9955173107710 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -292.668148680671 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.3658721380732 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -63.5833400965022 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -111.553212698722 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -24.2638928398756 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -55.2053910110173 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -496.722257006436 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -18.1263957524511 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75384940364115 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.52150313221062 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42063415488914 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.35467564251354 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.47899125725627 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.483452503122643 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.43038396430957 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.33961430022400 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17341492010403 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05658633901319 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29850021663146 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -103.373158967833 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -76.2030767803726 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -86.4778725512436 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -498.293628894633 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -52.2632067644932 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.08505373493018 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -116.523279057897 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -65.4858979869327 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -976.113633442133 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.9178868451995 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.44372145326230 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.32352131769691 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.39741231891203 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.32345637024325 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.43292752244738 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.483770808498624 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.42907324211208 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.33875194138568 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17481572014820 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05712387004534 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29863357468290 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -794.046215487093 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -89.0305992784566 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -96.5960640327956 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -606.844043103737 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -92.2772019383894 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478558349616336 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.41392048801456 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.8559254130794 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.45612833569226 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.26216548399244 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.38483639684107 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.30308432567491 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.39786119541656 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.483311320479756 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.42462719839545 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.33730375093572 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17512285490892 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05736484081523 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29869306184261 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -709.366027254822 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.36028287544978 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -36.9556447446281 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -203.278950773551 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.2317669153983 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.92474653332303 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.69002146378269 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42182027270487 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.37146833869338 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.49802286043458 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.483502828964708 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.43854430364740 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.34374039505069 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17556929684914 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05729581979464 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29871009838454 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.24734105980623 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -21.9980652546881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -39.0018777353361 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -148.492746823329 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -32.1877809319935 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -56.5411931620759 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -104.653986166160 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -23.5906707609556 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -53.9505042326819 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -457.369676189451 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.8938868482433 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.77095611839965 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.57724155190089 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42897510833341 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.38033802368085 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.51891045288700 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.482223676974157 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.45478101212830 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.34956696564242 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17819025418668 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05787646188271 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29885849021037 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -27.9633546330304 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50.9311827490096 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.1470987941303 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -326.742798326177 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -40.8070073682108 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.13352377744809 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -105.243789375122 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -63.4998792059405 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -816.346894442397 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.6162259770973 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.45801806877130 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.37377111145710 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.40540204651228 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.34842407332684 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.47138696332259 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.482597996406051 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.45264758978928 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.34845346323823 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17941121356353 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05836123513409 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29896911500306 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -107.080256564751 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -76.8019520470563 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -87.4791600758105 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -509.438262298902 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -75.6936558929599 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476479562690876 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.39899928692687 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.5471240912138 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47087199817775 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.30924320892310 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.39254319492985 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.32689587864205 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.43461821764862 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.482180197694919 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.44743547240880 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.34673035648579 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17955062544928 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05855736389674 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29900884718001 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -368.729572039484 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.28916080606809 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -36.3980660710940 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -196.304310359137 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.0161630313513 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.94361340610935 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.74127010717843 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42974988592711 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.39514574569508 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.53497341264296 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.482428710283900 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.46070600312673 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.35294102150902 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.17982530739312 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05843893281208 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29900637989469 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.20537949996126 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -21.8915659078698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -38.8467891726554 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -147.660243214603 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -31.6775630608398 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -52.9510443651618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -99.4439031024117 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -23.1615925754760 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -52.9119137362551 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -426.817906341169 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.6715422810549 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.78790882757469 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.62455853608745 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43671459827408 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.40334374894692 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.55508406525951 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.481190554321880 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.47645221450949 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.35855486876507 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18230651101914 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05897768864090 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29913749968089 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -27.4729019242447 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50.3730042589619 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -64.7238824611256 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -323.285393681281 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -40.0999531665471 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.16936089073308 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -98.1894087973468 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -62.2273734919621 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -732.423683816799 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.3466392167933 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47216198295948 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.41620620089393 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41271963149936 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.37035155403972 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.50627809074002 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.481601231687998 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.47373402073790 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.35719247461202 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18338708275170 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05942072292835 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29923161107294 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -101.231580755171 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -75.6482468322201 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -86.8212825643076 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -501.701742676903 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -73.6359416101670 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.474236821395884 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.38341118345222 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.2823951430652 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48474914454173 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.34918550977446 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.39956983383413 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.34791781675066 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.46833659979721 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.481213130137203 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.46802099005167 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.35523603823038 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18340219071821 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05958155055646 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29925697346517 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -4239.03638999152 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.7609682931843 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -82.5995019117746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -443.925707700054 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -328.456314865005 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.22821043600937 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -35.9717631670505 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -191.110759036716 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -16.8366363114787 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.96076065761219 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.78558018322591 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43689986860840 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.41623036357397 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.56900136042661 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.481498244200262 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.48087648238111 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.36127208173776 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18355666446902 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05942868323075 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29924116015139 at nshe,nfasti = 16 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = -133.953194704144 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -57.1372056416679 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -103.126546126122 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -23.2025160957894 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -53.3761997502908 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -434.802949375461 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.5375939317188 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.80222574713170 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.64307350348446 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44304441241892 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.42088395205072 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.58618109485149 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.480369144117176 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.49595728771123 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.36654290187791 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18589075565595 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.05993163007058 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29936017255624 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -8.29537840283929 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -23.5205834201095 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -40.7575999992539 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -156.195843240908 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -26.2950106230017 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.23630856757136 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -89.3940999857894 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -61.1841607626898 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -676.427925260868 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.1332724564081 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48414287782503 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.45488849181622 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41919348712255 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.38991267807649 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.53856273777868 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.480696986562343 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.49359120232194 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.36513150478160 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18697477585547 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06035926648453 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29944614561268 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -27.4261130231967 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -50.3811654000441 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -65.1438887718640 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -327.910936949734 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -52.3942113257548 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.472604223025868 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 5.37115097436054 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.0557520623222 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.49660055093107 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.38843469772981 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.40587721806775 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.36727602327932 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.49959343393123 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.480342840310836 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.48725372452883 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.36300570944960 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18687937177810 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06049607813963 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29946200418660 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -121.409529862851 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -58.8879098144582 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -75.9134408311606 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -390.365331056840 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -172.040416288367 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -8.17063684184756 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -35.5120191663838 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -185.787544611808 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -16.6742520404105 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.97629684827571 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.82836071250767 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44341608169390 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.43554999993117 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.60016020744454 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.480664658193325 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.49954847558020 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.36888184641370 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18691395132648 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06031678007339 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29943675171147 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -471.750217818665 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -64.2835331088966 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -81.0184523681490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -428.347340251342 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -115.695343386358 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -53.7819135205839 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -98.5093502975884 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -22.8543454196518 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -52.4931830421011 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -410.760780190390 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -17.3660173942386 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.81635992701957 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.68217407453118 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44943337448745 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.43969323913658 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.61660050794455 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.479570007324528 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.51416004503011 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.37398345325139 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.18913725562742 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06079273286574 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29954661267646 at nshe,nfasti = 16 5 %fp_imp warning: RF renorm adjust = -642.471901654116 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -82.6325534792965 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -92.6216570164530 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -545.696778977343 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -55.4561268431644 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.19003963328046 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -91.7298068901405 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -61.8466177120354 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -700.846734364220 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -19.9874027697746 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.49564370718010 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.47180068705847 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42467810587515 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.40489048621732 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 9.56587679772223 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.479992568519899 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 12 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 12 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 7.51094853483105 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 3.37219991654322 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 4.19007022769053 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 3.06118603813512 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 2.29962305349436 at nshe,nfasti = 16 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.702E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.605E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.564E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.523E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.524E+03 keV on shell 5. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 24085 TA= 4.80000E+01 CPU TIME= 8.00089E-01 SECONDS. DT= 1.65000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.2585516666668 %check_save_state: izleft hours = 65.6619444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.162E+03 MB. --> plasma_hash("gframe"): TA= 4.800000E+01 NSTEP= 24085 Hash code: 56616443 ->PRGCHK: bdy curvature ratio at t= 4.9000E+01 seconds is: 9.6787E-02 ->PRGCHK: bdy curvature ratio at t= 4.8950E+01 seconds is: 9.6875E-02 % MHDEQ: TG1= 48.000000 ; TG2= 48.950000 ; DTG= 9.500E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9400E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6875E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 48.000000 TO TG2= 48.950000 @ NSTEP 24085 GFRAME TG2 MOMENTS CHECKSUM: 8.0912154158646D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -9.41158E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -4.70607E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -4.70551E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.895000E+01 NSTEP= 24562 Hash code: 85536079 ->PRGCHK: bdy curvature ratio at t= 4.9000E+01 seconds is: 9.6787E-02 % MHDEQ: TG1= 48.950000 ; TG2= 49.000000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2720E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6787E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 48.950000 TO TG2= 49.000000 @ NSTEP 24562 GFRAME TG2 MOMENTS CHECKSUM: 8.0922838853432D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -9.36941E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= -4.68498E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 2= -4.68443E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.1830740000005 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.80007523449955 q( 3 )= 7.54730564113357 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9142E+00 8.4299E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.4 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.95808749494477 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.93723543297697 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.60115133959440 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 5.49904878023029 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56236396485387 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.63888009405658 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28563660712270 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.46743966746036 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.09505196912588 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.453583745794589 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.42720713563955 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.47758162650529 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.47977112364291 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.11757638051392 at nshe,nfasti = 15 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12960 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.372E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.230138570325483 Pqlo = -1.492025058773839E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.18767941756540 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46721502464094 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.39994807536427 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.21589481811669 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.75195913919612 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.58020103354836 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.24379011925728 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.44545825174317 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12680060445112 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.450789982325555 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.60142509161146 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.37430029536234 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22548173627265 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.11396917100982 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.417E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.295641118549762 Pqlo = -1.287429020196555E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.79980921433069 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54525504901719 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42188559844195 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 3.89499679997142 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.98621675150282 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.25815046845971 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.47467548830729 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.76512646034419 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.47439688314374 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22031180645756 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.11021218527876 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.230392430142986 Pqlo = -1.882035391906552E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.67326273526342 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52861056157459 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.40416832585425 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.58571813169556 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17031270896751 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.12609834468889 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82670878188837 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27154106886141 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48982887780231 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.78169816643108 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.49572064492683 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22214274959968 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.10915958048060 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.91769060494068 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.75581046374875 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48566785432547 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.34242149916298 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.05414156748087 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.05751792038567 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27332142357103 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50262849357715 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.79514010243406 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.50648107680510 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.22482523441910 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.10939340624781 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.295616745848420 Pqlo = -7.156010530117246E-003 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.84174898482975 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.63182417097435 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44674848014666 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30277670297750 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.190849444135844 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.385346211839537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.21475248593160 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85328927980235 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27421428856558 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49049669652219 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.78417280029572 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51355432040244 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.21432186471019 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.09667118880728 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.230469369195368 Pqlo = -1.956200764315158E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.84801593152608 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.79126828275042 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48047795770763 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33726098959510 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.66590264689429 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19014469087944 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.25414305708401 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08623848724030 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27318658235348 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48975170133928 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.77630362273139 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51668750431552 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20992287472373 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.08919730735023 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.80608004122777 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.84717741383019 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45518496845064 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30116355362016 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.14416666079470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89465527417422 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29803362006976 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.51818065042586 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.79344000028044 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51911615670449 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.20723144991654 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.08580730982958 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.294779279729094 Pqlo = -1.051341501852675E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.80075769194274 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.74029929428120 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.43615348093027 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28927899856163 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.167822551233379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.312395340778759 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.31269278439417 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.11442080158511 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28138138474882 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49429491903646 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.77849269931267 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51899130862034 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.19514440141466 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.07163085497145 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.230008906541774 Pqlo = -1.866382632447766E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.77312299519464 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.88721791895177 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47534119741241 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32541484813342 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.70325062572510 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.21736345235948 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.30788200008343 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92053592684931 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29415296128385 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50035759207986 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.77106849754739 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51813756728864 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18876724763113 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.06376695491800 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.92286629496158 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.93654780960947 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45326513927645 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30081412806966 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 4.19765126400842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14198099109433 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29894182877019 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.51457035595657 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.78277062381266 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51675489115082 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.18685894928677 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.06123681194860 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.293894827061819 Pqlo = -1.294335673377868E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.75564101811123 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.79481057638070 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42764454988230 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28194453708644 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.131000148240496 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.206077580439620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.340088395463166 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.305951911830496 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.34252799627996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92675570109412 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29725730595788 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50107881644556 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.76890655459942 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51482637959626 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.17479932534984 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04836037677110 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.229589256735762 Pqlo = -1.804806809827892E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.73594205826039 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.98938313030764 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47932265646047 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32901132797858 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.73995117371250 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.23458059344723 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.33803800700579 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14433710899928 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28850281213012 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49037854988711 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.75551421383335 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.51175915965149 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.17027922546080 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04227329656207 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.95879800765850 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.97546797892693 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44667644004116 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29612117237370 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.00089265403280 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.20296761832388 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94126378372712 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.30840559533333 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.51500754615864 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.76995794591527 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.50949675319282 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.16887600248433 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.04135645346946 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.293155103012825 Pqlo = -1.317041292897953E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.71734097776228 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.84220365255072 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42698944945558 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28262354660951 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.134014677798298 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.211401748751934 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.350842797064190 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.330595853746054 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.36389157146587 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.15500927891540 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28790394680299 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48731610834704 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.75200499939509 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.50661248732857 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.15908751248193 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.03048772277060 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.229179761322451 Pqlo = -1.857443612761552E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.70980636284324 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00794942450087 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47156494115026 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32195701577678 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.75634683734676 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24893447474334 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.33084764260297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94705563506823 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29420995373787 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48813898326554 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.74292148206384 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.50373083777258 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.15517224896164 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02597811574773 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.92038348051314 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00516079506727 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44219012606789 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29401193961346 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.02138211143781 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.20724881910182 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.15788678245530 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29610848525627 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49876134992656 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.75273308399917 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.50100392497735 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.15596932178446 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.02686357790476 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.292563876556547 Pqlo = -1.477437260243305E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.75052782247012 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.84519369235276 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.41536006086184 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27257456270898 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.136624317897604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.216976163900082 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.360764574263897 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.352928207738466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.34785859336729 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94388097560534 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29250667562022 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48499073181901 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.73972417967863 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.49876421931032 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.14655056642888 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01736191029698 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.228862631827355 Pqlo = -1.748944228934357E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.66733219196722 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.02198858767747 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46720263520302 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.31912636151331 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.76546526118416 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24556685440286 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 0.483608498383230 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.33029067380891 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14764399254226 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28114733368900 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.47173301717513 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.72688938891960 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.49577869371996 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.14460268573166 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01438491546940 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.499392273555767 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.89007567681629 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.99233261672833 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42830501087204 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28337547101329 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.02433883761226 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.18368725297347 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94503000935966 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29962693075538 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49629057984592 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.74145473818554 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.49377058253316 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.14566808385628 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.01636107849767 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.499685959747770 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.292104061675549 Pqlo = -1.459002435767966E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.76763907120797 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.86429933929134 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.41320545243844 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27057467213217 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.137177752387298 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.217230223753060 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.362224022907026 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.356346177473172 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.34807796062593 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.15207304852186 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27909277511113 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.46906990737414 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.72525410229380 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.49160877082015 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13807999809294 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00814044241517 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.498163333883133 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.228610529500896 Pqlo = -1.804840998158554E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.83471850674856 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.01419457266789 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45799976223665 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30972376070457 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.76799938530823 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.25037579967368 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 0.495509537081816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.30813712685110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94619182765925 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28436973078498 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.46994500988311 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.71765477809148 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48954083176898 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13622231986391 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00606556854781 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.497689845612815 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.84612558303123 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.99624063948060 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42261284967259 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27974921878841 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.03576216873743 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.17788854267687 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14865785176411 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28624571178852 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48103443649649 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.72834859271855 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48751147774765 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13892120683644 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00900807354568 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.498071246492181 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.291762592591791 Pqlo = -1.563023254974722E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.75138544326691 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.83947715608188 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.40069593770494 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25949575412016 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.138118327021454 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.219482608293500 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.365927778955333 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.364497128929050 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.32408982879995 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94160165157589 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.28316231182607 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.46880826507556 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.71745216208796 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48625262127553 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13135248242791 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00148745071015 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.496775869949400 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.228430484307251 Pqlo = -1.708785975335395E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.81910638213325 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.01085858238830 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45406333449407 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30661126873295 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.77013976057025 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24312239355497 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 0.461242121897868 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.30297386582787 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.13670890612420 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27168468024243 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.45616421402566 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.70614564334295 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48412126734639 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13100855782241 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00022227322920 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.496373372574746 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.82099416307615 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.97532489826827 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.41097666170289 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27013366843512 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.03243237515032 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.15490787211910 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93863494665018 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.29048165911225 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48159495687638 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.72197033628139 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48291858425920 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13346179366780 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 2.00365702981531 at nshe,nfasti = 15 5 %fp_imp warning: RF renorm adjust = 0.496944330592297 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.291504543475515 Pqlo = -1.516530876565646E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.73455495333538 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.84576972161497 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.39974323752001 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25808193811567 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 0.137728739672459 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.217779316365212 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.363820367985786 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.359778466791145 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.32312186799458 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.14149707847284 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27075538179654 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.45588326949905 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.70769676666598 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48161838409664 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.12729144501976 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.497605286257597 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.419E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 5 Pich = 0.228288127532666 Pqlo = -1.774228955168312E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.81690835092496 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.99274954311077 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44530637571479 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29773590695185 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.76850335802217 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24604122793473 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 4.28157496386509 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93957013291903 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27625359117340 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.45755689369892 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.70150648812790 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.48037014745724 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.12660652137998 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.497899453631064 at nshe,nfasti = 15 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.362E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.106E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.420E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.79812811808867 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.98444104279611 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.40657745062844 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26120246349533 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 2.04419157367868 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.17188955119812 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.13618829516364 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.27695005959698 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.46823640308770 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.71277600298245 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.47909684446898 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.13030812447154 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = 0.496072587807814 at nshe,nfasti = 15 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.566E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.506E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 24587 TA= 4.90000E+01 CPU TIME= 8.00732E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.6531550000001 %check_save_state: izleft hours = 65.2675000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 4.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.266E+03 MB. --> plasma_hash("gframe"): TA= 4.900000E+01 NSTEP= 24587 Hash code: 107620397 ->PRGCHK: bdy curvature ratio at t= 5.0000E+01 seconds is: 9.5369E-02 ->PRGCHK: bdy curvature ratio at t= 4.9950E+01 seconds is: 9.5415E-02 % MHDEQ: TG1= 49.000000 ; TG2= 49.950000 ; DTG= 9.500E-01 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8910E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5415E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 49.000000 TO TG2= 49.950000 @ NSTEP 24587 GFRAME TG2 MOMENTS CHECKSUM: 8.1122683026653D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -7.09239E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.58291E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -9.60840E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 9.58289E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -9.60737E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.995000E+01 NSTEP= 25062 Hash code: 16637799 ->PRGCHK: bdy curvature ratio at t= 5.0000E+01 seconds is: 9.5369E-02 % MHDEQ: TG1= 49.950000 ; TG2= 50.000000 ; DTG= 5.000E-02 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2250E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5369E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 49.950000 TO TG2= 50.000000 @ NSTEP 25062 GFRAME TG2 MOMENTS CHECKSUM: 8.1132972092975D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -7.06131E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.54100E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -9.56639E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 9.54098E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -9.56536E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.459E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.222E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.450E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.86102599999867 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 5 )= 4.57348040868744 q( 4 )= 6.08153945556430 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9136E+00 8.4252E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.61669047921664 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28467762977714 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.49254467876900 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.91246164293797 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.32973985107417 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70958069549071 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -9.11792398299654 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -113.513577966023 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = -20.2331266389340 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = -151.010169859369 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.94380756386506 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.64069355018713 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 3.45237353879358 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.06033611577379 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.67751836017386 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.88325236141718 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.08114326096839 at nshe,nfasti = 14 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12910 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.459E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.222E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.64910976084519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.77925970975925 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84851517563988 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18774420936827 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.96614920359608 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39734147908184 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01386636193436 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.89052505369667 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.497808384247959 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.13554312655038 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64727798158339 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.78192229996807 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17121673657827 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.34649992082688 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.70263291874884 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.24018236253062 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.90586053441561 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15723592739562 at nshe,nfasti = 14 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25503469086758 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89975255496644 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.45334617748677 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.57777585508790 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02216894440637 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.87764858504222 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33702582158359 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.92673181769250 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.92547859191583 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.03261574395161 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.41610795139312 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.72235990082662 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.12500380488252 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.74292974637184 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.05916401252766 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -20.6374804193187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.12486197025313 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.97262384950216 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.92939005407648 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.19143058260845 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.84266638461835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.37622719589164 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68009580366257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30817652368913 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48877850601425 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.61103779061231 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.33751506850688 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.67694747123792 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.06841962435700 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.66293344942520 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -18.7727037333353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.20274973520255 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.03390405603959 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94859333071912 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.09890472554813 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.53631581028117 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.74984497219942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.28335775743975 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52591756060248 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480297504654653 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24170383754673 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.32850651858038 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.42638451970490 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.27002893838290 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.63282170954562 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.03142584348555 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.61203211983377 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -17.3902887579292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.24902176709844 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.16228080321971 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97950733990294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.06545198924999 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.39535834170921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.56382693140831 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.02738443637280 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.45420725068113 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.466850639555343 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.20190870070665 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.24057286230867 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.32012608868095 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.21975048279435 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.59397791928442 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.00439485371047 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.57578524293274 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -16.3616811083849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.30362982532161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.33001874571401 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.02385048083383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.06659840378858 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.34156743204777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.58294124410687 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.98162821832455 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.42544225872607 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.459319518042240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.19327302568028 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.19439974871567 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.26201469604793 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18278275759357 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.56015808091987 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.98369319645022 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.54847792370906 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -16.0479373863065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.36549611787349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.48323272718783 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.07690722384146 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.09218228614291 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.34598095774316 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.70060397941330 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.03338220979888 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.41649331765851 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.454594509183546 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.20055811806116 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.17349522009130 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.23306875667741 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.15494770736581 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.53049520486984 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.96755358764638 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.52720980310457 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -16.3409508361128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.42860801693546 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.59389828610694 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13713457167138 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.13561447673187 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.38286807690911 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.87605930550326 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.13922487765354 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.41796589076430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.451633281329314 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.21585959451732 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.16527821529835 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.22027772252800 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.13391198436215 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.50473723098552 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.95492300747218 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.51026904181073 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = -16.3988696790023 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.48991887274500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.67842351176306 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20220312849672 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.18967056321668 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.43954763511920 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.08284791471827 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.27327653305914 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.42485256116857 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.449784958336323 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23513008502983 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.16661139612633 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.22087418330158 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.11756690716044 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.48238486102151 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.94506403996279 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.49654967357169 at nshe,nfasti = 13 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.459E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.222E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.279468733416064 Pqlo = -6.216554246231969E-002 W/cm3 %fp_imp warning: RF renorm adjust = -16.2095295952200 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.41217325161258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.67599114058681 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.96662745536024 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23346401212397 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.48030310484538 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.458004582173699 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.32372569764983 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.80428219543090 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.05344311232612 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.03549156705519 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.63580061122491 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.94588373934460 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28880228845584 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.81091708689946 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.09354667443117 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -10.2979832528131 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.14938210836985 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.09646380439431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.84529494621323 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29135242350262 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.496623038779820 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.47822797229474 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.461013456516196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.36853740257140 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.80717247619184 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.92901142901158 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.03073398325698 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.58551066832221 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.94597681738865 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28704700138877 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.80108648598209 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.08059337366944 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -15.5004560855731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.19561441592591 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.94694096846060 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.60184100608956 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31378131132259 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.491077124090520 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.49845663475106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.461546076188000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39838312483728 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.84241771908885 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.95567363903699 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.02575578296651 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57539644876535 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.94252911341918 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28478001972215 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.79541073933071 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.07231748299616 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -16.7563441719879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.15770524499656 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.98611695254021 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.47255758218319 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32512112001731 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.487728188264428 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51123657775057 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.461241184886667 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.41978169948605 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.87061081407467 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.99369986693984 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.02035550345526 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57266900072816 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.93708071332790 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28313209901303 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.79036324558159 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.06514378983123 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -18.5044549940855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.19206137694963 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.94257006876294 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.42429182703714 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33392502717074 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00203177337617 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.486378316210320 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52004491619947 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.460650341297550 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.43750872911941 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.89237245954248 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.03374497840444 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.01474956806619 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57287366776283 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.93203640872262 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28196534141822 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.78607718898763 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.05907410638470 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -20.2214504816683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.16533001451427 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.96662805950973 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.41481375919278 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34228372511113 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00499141555674 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485942108422620 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52590697356565 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.460004939691728 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.45328934912490 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.91032923290857 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.07027870571784 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00908314919505 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57415362187446 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92797969692609 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28135725747345 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.78252987090513 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.05395230009860 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.5599569034426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.17411655095055 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.94175941026974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.42944186540942 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35082827132502 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00776648493272 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485655775750713 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53028672769207 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.459403947492531 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.46791108243924 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.92609778889644 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.10348110187128 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00357358984533 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57489852119702 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92497293947276 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28133371646535 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77967055760435 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.04962587290434 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.0816553984985 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.18882765571684 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.92194147688857 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.45825646141832 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35980064598314 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01055827385380 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485537072030960 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53420628432090 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.458852776553362 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.48163537493883 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.94067358567367 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.13490493120260 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57584825013426 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92292156637785 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28186799776431 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77744015453049 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.04597590854278 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.8957016594307 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.19900759442935 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.92969022245277 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.49491423798866 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36874536399542 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01341227993954 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485540134437709 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53773338321673 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.458379670966584 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.49477644990373 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.95437581278490 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.16687103961952 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57755849263226 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92175500365799 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28291372991945 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77577127556153 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.04291521664758 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -14.4577651579536 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.52254489481712 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.47534886540229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.53030067690777 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.37762577635166 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01628205674238 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485660053943012 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54061976096844 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457986287553107 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50745851895989 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.96759255534654 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.19919017538871 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.58004768608900 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92141468813747 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28439614687882 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77459889323918 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.04035709582975 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.5420342548435 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.27713373904709 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.98211587275461 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.58144805223147 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38663554050398 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01927279009092 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.485892484020484 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54336164713200 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457676452723479 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.51978315149554 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.98068206822080 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.23207801938477 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.58332014887941 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92154065236589 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28626934684381 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77386646588796 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03823024924892 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -14.7469555017144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.57542282884230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.54839564730955 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.61930646931181 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39530481130092 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02226829328241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.486202879263887 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54605713020377 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457447272444608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.53180083862029 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.99379954239635 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.26493340881381 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.58729848018848 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92186168522161 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.28848979097430 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77352244114814 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03647192642404 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.0549279696262 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.31568362899553 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.03458932607063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.67285216639275 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.40404206019027 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02533844542212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.486601475102401 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54906574759721 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457301288941062 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.54369301554156 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.00704821386782 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.29821593308198 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.59195174595076 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92259448322508 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.29101798342805 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77352553158048 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03503489807824 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -15.0822287084029 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.61060165250593 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.55846458407324 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.71231012913492 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41237669552386 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02845638241052 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.487069841873478 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55223089499407 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457224608984434 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.55538226333693 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.02046819595073 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.33119959647220 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.59721468512413 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92395032332257 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.29381612522137 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77383301703303 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03387417207124 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.6729238439470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.34874208509024 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.08021670916253 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.76798389426895 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42077773395597 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03174312172923 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.487606035245786 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55528510546264 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457213650149011 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56692489705394 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.03421777369700 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.36449509295520 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.60303357320830 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92586525305236 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.29684789372116 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77440497986009 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03295034799003 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -15.4144873123282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.64154110620257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.56445784337799 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.80901969104809 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42887517655223 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03502043373540 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.488180785326653 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55834198056230 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457258945261476 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.57826254012029 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.04819729339491 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.39768392455817 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.60934948380852 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.92826756304950 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30008841394911 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77520695145861 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03223016953554 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4435194110437 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.37895829713143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.12505692189052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.86384273016249 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43699815061933 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03839252343210 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.488803072537155 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56149092538415 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457357102863293 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.58937571428353 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.06248486957029 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.43113862650790 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.61611127296086 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.93109312704486 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.30349159802644 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.77620708422125 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.03168499683782 at nshe,nfasti = 14 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.459E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.222E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 3 Pich = 0.305294374027345 Pqlo = -2.008710146501053E-002 W/cm3 %fp_imp warning: RF renorm adjust = -16.0789744772265 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.94889930516358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.94070301159902 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64773813929101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.07690498653572 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13649765344164 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.13189892493061 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.416911656090865 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29512918844585 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.89254719029624 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.03061136131331 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.69875031480440 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.05451367064096 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.90979501622650 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.18353182246521 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.46957757681298 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.91707710825348 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13372982090919 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -28.1915407708645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.81723388679841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.67663153008349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.84860479968483 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.38413593384097 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13047491196052 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.498588890088792 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.20377474663398 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.426511629454482 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.35011115499158 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.85930221601182 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.03737175338076 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.64568059706008 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.05993560710871 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.89227026581964 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.19731932759057 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.47660021151686 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.92085109703144 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13287120641185 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -25.2618602106952 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.65259208104649 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.71884607765208 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.06311218061969 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12546860890198 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.490674343109807 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.23648746048161 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428295888822568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37380867705244 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.88753029897084 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.04461787558252 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.68177143664832 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.06335303219690 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.89713056913266 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.20777855957998 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.48248385842847 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.92509059519913 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13373982434224 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -17.6750043095853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.12160414159350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.05390251726530 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.90047279201203 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11978286167339 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.486845969376768 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.25317504650516 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428577224488564 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38725585359038 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.91338694045527 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.05104087764985 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.72135260106215 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.06613142324289 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.90599421232804 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.21570793188739 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.48779784193581 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.92848603742624 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13427735971654 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -27.0065497662197 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.82479434400154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.79607600969583 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.80780653895704 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11452118863385 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.484737677296022 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.26332471555086 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428438416603484 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39745069592144 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.93465893323139 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.05756516504640 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.75984624039059 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.06839770724683 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.91580534591636 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.22272907788868 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.49258618889152 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.93141920637809 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13474080396794 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -19.8009528050182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19872661611987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.09220292585467 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.74660973003439 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11016669729987 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.483413207072511 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.27031097465516 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428179843033378 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40653888496386 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.95271786965531 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06435700817392 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.79661402212518 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07034353045316 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.92572215855702 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.22933716654850 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.49700806850273 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.93404565743650 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13516632414245 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -18.8847379022664 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.17906206737745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17608684586647 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.70436844304821 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10703696293221 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.482438680129414 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.27572589123080 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427898395675152 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.41521718376251 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.96877752248904 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07133775193466 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.83218509095508 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07212003576630 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.93549738504656 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.23569312520040 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.50117696956580 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.93647018921769 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13557315122889 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -18.9052730986635 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.14384384027812 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.15978594387301 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.67463787566005 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10511894592873 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.481650448215297 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.28029607208032 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427630600509808 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.42376847840855 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.98363327434530 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07835943966737 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.86686830320521 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07381832854901 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.94510469599643 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.24186577918205 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.50518978606153 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.93875358000772 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13597152147362 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -19.5593940225055 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.11787928738042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.14950477033231 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.65408346044777 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10432800174738 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.480928783892646 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.28445203442256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427406894741121 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.43231487272776 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 3.99778756749005 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.08530537444313 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.90090588218439 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07550315341653 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.95455522843054 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.24789301886772 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.50911091323224 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.94093445564450 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13636754615574 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -20.2751378506627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.12834929040278 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.16007526091368 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.64078656599231 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10454712484521 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.480233265005493 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.28838204591652 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427239561128775 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.44086321214645 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.01157870004233 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.09209547445673 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.93449573462799 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07721797449969 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.96386433808560 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.25380342695318 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.51292268940653 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.94303877932423 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13676452034975 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -20.7451393136630 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.14268370541251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17206128802684 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.63300960183383 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10562196220568 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.479541780968467 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.29219013033879 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427130010662257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.44948062738044 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.02518676671795 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.09867027260824 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.96756560398651 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.07898387038495 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.97305095616378 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.25961607011489 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.51664312916069 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.94508421500469 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13716380526247 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.1500031869918 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.15652165583998 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.18287966007962 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.62946557839809 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10738488829661 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.478839055326962 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.29605755750869 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427076045032197 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.45815613053783 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.03867912720216 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.10496608444961 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.00019541727346 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08080537809952 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.98212433518274 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.26534045048829 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.52029147609410 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.94708156969444 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13756610039561 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.5214854580860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.16986910635598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.19324360791295 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.62925175426861 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10963342053963 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.478130113065080 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.30001982809213 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427071748216135 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.46688538316952 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.05208674140250 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.11096856775408 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.03252287623600 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08268088372151 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.99108981587860 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.27098170048432 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.52386639038362 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.94903878308226 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13797151683587 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -21.8651818790582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.18300996322458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.20364341758203 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.63177083830004 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11235201436988 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.477409389575327 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.30409016675256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427112079520696 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.47564892171952 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.06551778689145 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.11668302233093 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.06454314409965 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08462767309688 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.99995171204374 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.27654151898547 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.52737693441580 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95096344282297 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13837949131401 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.1860453447673 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19606265832277 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.21416897166649 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.63659134166396 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11546026723699 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.476678073606167 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.30827717006316 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427194654869690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.48441147751364 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.07898975609903 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.12211970459664 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.09620649185376 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08663268203898 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.00870228508377 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.28201947735580 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53082205253277 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95285676976482 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13878925022424 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.4860683307215 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.20901020228639 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.22478879593392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.64310744376364 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11889141040629 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.475949787095158 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.31257757638443 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427317553361708 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.49314184351194 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.09248268633924 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.12729265898519 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.12748021599162 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08868860330421 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.01733593074947 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.28741532915926 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53420008633961 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95471939889959 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13919962915981 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.7661102703440 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.22185366654868 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.23546942117725 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.65093395578593 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12259471156475 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.475223768480635 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.31698347839075 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427476902078298 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50183358352245 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.10598104730358 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.13218848295214 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.15832773506187 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.09080054926651 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.02584901662877 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.29272678105559 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.53751267494192 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95655179897685 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.13960932923401 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.0020426564416 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.23357845746315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.24624714053668 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.65978849520570 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12650623736362 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.474498482685900 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.32147874397112 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427668639937521 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.51050696152261 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.11954956382199 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.13684423358210 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.18813055430814 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.09298186393471 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.03453634762363 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.29795138511325 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.54076555367943 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.95835535961293 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14001813560945 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.2173190920640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.24511299168836 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.25706330420179 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.66943959852034 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13057537708647 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.473776004839148 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.32603629861416 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.427889219576509 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.51909146611625 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.13308164512476 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.14121915395813 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.21817546088752 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.09520628839601 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.04284421315645 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.30309990549956 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.54395438699068 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96012959107204 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14042349552262 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4037855205897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.25599958326327 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.26786912226444 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.67970188260572 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13477123112450 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.473051670586745 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.33056826431942 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428134772778667 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.52757434621800 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.14654607809835 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.14530903473111 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.24775617624201 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.09745544647587 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.05092701047672 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.30815060800082 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.54707773213210 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96187304742309 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14082467725574 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5622572302507 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.26628122357815 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.27862454974621 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.69044137880946 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13906287276930 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.472327419463450 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.33515618175465 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428403715313629 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.53596040989693 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.15993581656624 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.14909354566715 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.27681461072531 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.09972629965322 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.05885658626787 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.31310206827062 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55013394113581 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96358420879103 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14122050589732 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7014543291840 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.27638061928660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.28945913629916 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.70154671477322 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14342013010791 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.471605521177941 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.33978126077840 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.428693586810093 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.54424491266802 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.17325327861173 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.15258544735290 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.30533615567278 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10201221683457 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.06664411725757 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.31795322532317 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55312227863151 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96526208598873 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14160992835949 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8146242413698 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.28639733635979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.30072113713422 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.71294100612085 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14782493154357 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.470889028862193 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.34437988936066 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429002606187917 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.55241646966723 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.18647679949925 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.15573066753286 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.33334444506372 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10431206614580 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.07429020853021 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.32270284784943 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55604226277094 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96690609857347 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14199210656193 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9017247150355 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.29627546377389 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.31194524881706 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.72460147171608 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15226661125921 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.470177448328408 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.34895868280318 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429328591984429 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56047214481629 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.19959310601587 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.15865593094384 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.36081545442390 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10662381644401 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.08179199358544 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.32734938552009 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.55889371068603 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.96851572794667 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14236636325233 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9735277332768 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.30592204721040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.32298781206576 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.73648638334918 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15673825138786 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.469472091895097 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.35356827361379 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429669421226202 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.56841264930839 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.21258979043527 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16136977062112 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.38773024970465 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.10894216423519 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.08914738467894 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.33189458157167 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56167713255860 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97009056143258 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14273211692118 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0304055618561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.31536806709824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.33410348142876 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.74848988903753 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16121559429572 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.468773487618672 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.35819796830120 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430022423260037 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.57623541622616 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.22545601341266 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16388551680303 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.41406816939084 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11126176089590 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.09635390401558 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.33633797387744 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56439273162640 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97163018323808 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14308884899847 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0684121653300 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32466253622422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.34524936078468 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.76056093511295 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16568431331655 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.468079776459392 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.36284481892043 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430386269639298 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.58393880888156 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23818087517705 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16622081198733 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.43979079785194 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11357908108463 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.10340551811346 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.34067479472302 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56704273656381 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97313446294143 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14343628082797 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0922514795703 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.33375662165842 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.35619345038968 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.77264243206224 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17013457146698 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.467394395078042 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.36749671923588 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430759848239610 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.59151673143270 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.25075629380936 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16838649913469 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.46476692460318 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11588511989183 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.11029313321783 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.34490239644790 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.56962453363386 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97460308243046 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14377412871926 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1084638063370 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.34259872993174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.36686547452354 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.78469742110631 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17455771721040 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.466717562247541 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.37214571686656 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431141717844536 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.59896589657417 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26317191631564 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17039245268009 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.48916630146814 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11818073036720 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.11702649536338 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.34902342835638 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.57213935959641 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97603599850225 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14410209587834 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1200897303975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.35118904371999 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.37725573691321 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.79673399448651 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17891510736965 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.466049546026416 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.37678399847445 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431530627436292 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.60628429852577 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27542108762984 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17224120856038 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.51300066162609 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12046334676189 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.12360636634019 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.35303864386344 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.57458772949899 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97743318432145 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14442002246896 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1288131066098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.35948712883404 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.38733139725756 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.80870551957979 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18322953288222 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.465391542509053 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.38140767064066 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431925385352470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.61347123848547 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28749537703212 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17389235815149 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.53627125833830 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12273043964302 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.13003361761435 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.35694900092854 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.57697052334548 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.97879450977942 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14472780369404 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1344901925025 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.36752037762752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.39711412932475 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.82058182038940 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18750260527916 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.464744006533273 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.38600923345188 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.432325136251349 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.62052584799755 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29938564161978 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17540239718922 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.55898955298824 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12497918954655 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.13630945808443 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.36075560641275 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.57928862085716 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98012048902526 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14502541020085 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1374140215735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.37530096628423 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.40661642611560 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.83236051331190 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19173355710879 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.464106645420196 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.39058291067430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.432728717437200 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.62744680925091 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31109194400846 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17677930099928 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.58115603371856 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12720684292509 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.14243321385089 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.36445931003629 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58154268551450 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98141126410878 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14531284875547 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1377041760432 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.38284743663103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.41585622338390 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.84403474242515 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19590944524616 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.463480114529930 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.39512289575418 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433135181638605 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.63423313953094 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.32260822781942 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17803816335863 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.60277534697922 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.12941035943192 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.14840580533768 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.36806149400062 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58373354582055 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98266700785933 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14559013277655 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1357214697562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39016214238419 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.42483458407573 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.85559413161367 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20003084654009 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.462866032881536 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.39962554741307 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433543503548627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64088468340102 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.33393457283939 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17918635581929 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.62385843013577 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13158864228942 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.15422925012406 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.37156210921614 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58586601211126 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98388848320100 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14585744913247 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1316515189653 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39724986080413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.43355513478358 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.86703730405842 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20409255009901 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.462271550998557 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.40408364391718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433952136810979 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64739967678109 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.34507353854198 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18021563408851 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.64441384830804 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13374075112417 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.15990463268833 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.37496323365402 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58793949834455 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98507610194700 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14611486958701 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1258648314839 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40411574124979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.44202198075932 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.87833539239389 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20808875372929 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.461691152133400 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.40849298688656 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.434360663943203 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65377670958344 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.35601647480531 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18101433977081 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.66443812262020 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13586463094664 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.16543101886265 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.37826598707296 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.58995422243600 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98623027068671 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14636263080378 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1184596128321 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41076649204985 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.45024250416075 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.88947257381749 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21199969120113 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.461122948380849 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.41285376549605 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.434768685419610 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66001694171812 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36676024143922 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18172113678247 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.68394731461469 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13795846479576 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.17081333838907 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.38147308825426 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59191079777565 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98735086253693 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14660052745062 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.1095377162588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41721555041639 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.45822908703514 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.90044732352209 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21584476882027 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00132499051721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.461209302331186 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.41716293584470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.435175869855288 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66612303361868 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.37730733015748 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18234377220648 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.70294731144180 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14002079238113 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.17605335880552 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.38458632884599 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59381029264794 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98843911499541 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14682897945360 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0997525184005 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42352119019216 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.46604350836975 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.91090987222643 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21959629761100 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00370253714235 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.461760160614035 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.42140100678655 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.435588922204438 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67209476086681 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.38757670265624 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18278297432366 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.72140194927277 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14204436179239 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.18114863845320 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.38760677671833 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59565360403134 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.98949580261772 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14704828371728 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0896571342380 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42969831279741 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.47370817211037 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.92095842386508 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22328029518385 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00626878265402 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.462354060681350 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.42562379384754 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436010404559465 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67796869602191 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.39760622743400 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18302044270071 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.73934889294432 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14403064886778 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.18610514418682 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.39053790817996 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59744236492938 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99052180538552 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14725877408633 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0790697687763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.43573112865178 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.48120367983326 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.93086309167755 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22692566814175 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00889854684798 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.462960943463591 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.42986214274068 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436437185492364 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68376206938913 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.40746812162531 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18303339926896 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.75685100916860 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14598543006175 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.19093292464184 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.39338409608671 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.59917885251035 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99151805907135 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14746073045645 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0675505235382 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44160539604880 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.48852200581566 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.94067962411052 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23054859870598 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01154861505521 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.463572180838892 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.43410265173222 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436867183866291 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68946837141536 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.41718106116890 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18293840083773 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.77359534553593 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14789230687190 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.19564170791801 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.39614954734382 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60086539411043 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99248556286525 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14765444763255 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0549163850503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44731514138102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.49565551431690 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.95040396182107 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23413877827127 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01419847613125 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.464183680448164 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.43832893084223 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437298420243676 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69507685637754 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.42673648975170 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18276042851250 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.78988610913185 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14976539245965 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.20023108608154 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.39883618895473 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60250363039158 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99342512794080 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14784020866635 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0411714541445 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.45286944508447 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.50260949051192 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.96003646963501 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23769427164525 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01684479203794 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.464794437591875 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.44253163533023 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437729732116013 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70058370992207 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.43612858466731 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18251386284437 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.80576813162218 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15160758409361 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.20470321872156 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.40144619971512 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60409477353998 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99433758256920 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14801830156378 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0262900210285 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.45828026315883 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.50939401780352 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.96955257736857 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24121134468173 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01949515816537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.465405610124662 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.44670291534741 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438160341920235 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70598695567395 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.44535700164109 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18220952409689 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.82126087923093 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15341945509278 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.20906168342076 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.40398198865431 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60564185087926 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99522375721653 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14818902867338 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -24.0101301568061 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.46354078673038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.51600447839235 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.97889494553401 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24467441136171 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02214723625959 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.466017082718736 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.45082745617667 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438589368442830 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71128199207355 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.45441246946638 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18185285418465 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.83636103302091 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15519992917244 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.21330900405786 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.40644586824155 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60714544922665 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99608428634515 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14835267608245 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9928721452995 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.46865630054275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.52244616201249 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.98810538341897 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24808587193448 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02478164495651 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.466625253579995 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.45490484468421 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.439016344349795 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71647104945036 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.46330219877693 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18145132059196 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.85107574085433 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15694828208866 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.21744775777276 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.40883958180254 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.60860601421089 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99691984855165 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14850955431238 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9747993426100 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.47362233595756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.52871359125973 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 4.99717764747005 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25145140014748 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02739569488577 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.467229316301976 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.45893842821734 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.439440824745647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72155490125092 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47201884430735 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18100653588215 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.86541331512935 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15866442908680 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.22148008075668 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.41116522586759 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61002486243945 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99773126777650 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14866004471006 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9560329534933 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.47844008851066 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.53480783784553 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00610964113114 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25477119491899 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02999023723763 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.467829189274760 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.46292684535450 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.439862263986965 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72653273558888 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48056125835082 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18052372902998 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.87938112279991 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16034789222527 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.22540807703501 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.41342494489479 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61140358248531 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99851927524642 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14880449050564 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9366230145094 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.48311727589259 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.54073672113148 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.01490894955786 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25804289064900 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03255744308034 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.468423356388175 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.46686378705791 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.440280105608576 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.73140507068171 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48892992624446 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.18000424303633 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.89298416201566 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16199866373261 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.22923356582977 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.41562051625432 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61274337875890 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 2.99928459506336 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14894322970983 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.9165789987018 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.48766149950504 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.54650761529354 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.02357304353079 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26126623990211 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03509848362698 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.469011783505394 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.47074774445234 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.440694237983750 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.73617446676797 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.49712692919870 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17945405564575 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.90622652959021 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16361675384720 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.23295849167263 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.41775369989601 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61404544219447 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00002790802702 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14907656340386 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8961146151770 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.49207060529706 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.55211876632361 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.03209804525769 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26444127805715 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03761202685320 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.469594190168229 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.47457822529304 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.441104332135001 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74083907862371 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.50515318570820 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17887683307125 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.91911906577578 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16520219142633 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.23658508700005 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.41982629359652 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61531089788913 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00074985838911 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14920481228520 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8753107239248 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.49634617774368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.55757189438180 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.04048466022990 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26756709058027 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04009388764379 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.470169878993667 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.47835360227185 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.441510023967161 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74539899664618 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.51300917865351 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17827449490387 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.93166066390549 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16675462205086 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24011550703904 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.42184000795001 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61654085344575 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00145111784393 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14932822509641 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8542176215887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.50049023086154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.56286880158302 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.04873209015781 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27064371188682 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04252824128836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.470738302208961 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.48207193713622 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.441910983786077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74985760215219 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.52069592322940 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17765072942399 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.94386593527771 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16827424757834 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24355148467439 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.42379634493616 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61773624254404 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00213231494452 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14944704749646 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8329001720667 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.50450488883176 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.56801200397114 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.05683262577969 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27366869976292 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04492665506751 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.471299329652515 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.48573070559914 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.442306914080361 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75421465169878 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.52821143914333 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17697818655701 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.95574080148631 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.16976102095220 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24689456090414 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.42569648155628 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.61889835096069 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00279398508171 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14956149867197 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.8114613073395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.50838674837735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.57300070281796 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.06478448261236 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27663566179255 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04728458182014 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.471851591651255 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.48933524821149 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.442698043039643 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75842590897082 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.53545120110379 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17617868404597 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.96812514498914 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17119220817418 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24976434107982 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.42754063350521 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62002812517646 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00343568039000 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14967079147771 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7898231041106 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.51214617729561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.57784326043263 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.07259265906416 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27954505497350 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04960393109345 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.472395997416664 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.49285389526535 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443083286769242 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.76254925445049 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54252143539160 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17537489779009 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.97939212657825 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17258559520839 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25277930999754 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.42931492136496 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62112467227671 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00405734154094 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14977622266375 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7680229342988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.51579357787794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.58255012365409 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.08026981705234 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28240475888748 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05188804194077 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.472934558894863 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.49631754448997 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443463460684723 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.76658754163720 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54945003798356 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17455948306832 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.99032255830671 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17395414822785 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25579169157585 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43104167936900 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62219073588316 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00466098632754 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14987768876905 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7461027693631 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.51933618030024 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.58712930863765 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.08781721526945 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28521566798065 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05413292567425 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.473466037155951 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.49972313350576 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443838268492228 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77053680225232 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55623330355060 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17374044094548 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.00095500100717 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17529614316440 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25873703477160 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43272172262036 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62322794282147 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00524757306638 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.14997542535367 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7240601474054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.52277766128027 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.59158545440119 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.09523267008326 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28797789713365 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05632774053434 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.473990229549009 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50307239214418 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444207811343551 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77439770016452 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56287318304581 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17291336258564 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.01131611124645 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17660975285438 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26160646203147 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43435526757711 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62423663498470 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00581771128107 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15006964282843 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.7019581433019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.52611985760557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.59592080663666 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.10251967903197 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29069163191174 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05848322308930 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.474507837822607 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50636334965460 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444572010221804 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77816983856512 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56936493028515 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17208085829692 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.02139304119755 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17789439168824 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26439786820208 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43594244704462 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62521744055233 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00637182373159 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15016047145539 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.6799101984716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.52936115078369 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.60013436160267 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.10967396684097 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29335465879088 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06060433086498 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.475017566956759 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50959512023737 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444930585530574 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78185305329494 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.57570655644971 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17124531026502 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.03119072336305 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.17914968224326 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26711154560065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43748397620185 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62617091702832 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00691026177949 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15024800136017 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.6577170172287 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.53251006351598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.60423380255346 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.11670359762000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29596812395603 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06269460998234 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.475519663086219 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51276907782859 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.445283432823117 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78544864006532 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.58189991436993 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.17040877252376 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.04071898425248 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18037597167340 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26974920633286 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.43898101660059 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62709777240146 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00743339448812 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15033231356465 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.6352131711598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.53557360475861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.60822590409540 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.12361689209119 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29853224316458 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06475706531909 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.476014602487091 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51588564343906 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.445630483932132 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78895782425401 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.58794707912281 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16957275042786 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.04998604558049 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18157369720110 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27231358570596 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44043487348253 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62799874560731 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00794162208402 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15041350550195 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.6126162143993 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.53855030506700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.61211037864442 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.13040277414990 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30104613209922 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06678524322852 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.476501723253032 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51894204337691 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.445971774883079 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79238175380535 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.59384699415249 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16873687282360 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.05898821766441 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18274273290925 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27480400158462 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44184634791937 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62887496932890 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00843536401564 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15049168167903 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5900793478085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.54144193190655 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.61588922418573 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.13705979912596 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30350568362710 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06877544157258 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.476980290647268 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52193641635588 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.446307160160837 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79572098383532 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.59959818352038 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16790005072159 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.06772994190601 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18388336902469 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27722222209677 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44321618841106 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.62972760377113 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00891504174387 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15056693370481 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5676889546751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.54424665521547 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.61956118291590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.14358759877944 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30591519121320 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07071692227391 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.477450031611481 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52487024245297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.446636601901269 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79897695852002 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.60520164979134 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16706400442425 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.07621925023566 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18499597339731 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.27957069618643 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44454561605160 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63055636345547 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00938096646659 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15063930958611 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5455161956442 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.54695960861557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.62312194666380 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.14998620035732 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30827642589342 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07261874074880 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.477911126138986 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52774445898942 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.446960042687907 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80215148692277 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.61066309310564 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16623177607833 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.08446402182087 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18608110505454 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.28185178174318 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44583583307658 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63136171668708 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.00983346074721 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15070885902683 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5235764449320 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.54958437917143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.62657493816451 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.15625547617546 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31058880773678 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07448353562235 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.478363648999937 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53055890022600 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.447277507849697 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80524588286692 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.61598495794146 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16540070402176 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.09247143548749 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18713930473325 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.28406741425821 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44708812598664 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63214427958473 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01027285890110 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15077563466864 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.5018556419060 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.55212593782512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.62992634267089 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.16239781652240 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31285295232857 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07631123161950 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.478807607329318 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53331388191104 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.447589034490608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80826175900087 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.62117343922153 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16457094720059 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.10024885307267 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18817116688201 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.28621939584928 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44830348848367 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63290452188412 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01069952626358 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15083971143662 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4803313888558 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.55458873411650 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.63318046147479 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.16841075917193 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31506955858935 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07810208100066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.479243018869799 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53601015764867 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.447894663491996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81120068696329 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.62623393587640 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16374173311591 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.10780236748593 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.18917719987111 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.28830963366253 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.44948313727926 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63364319602897 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01111380463869 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15090116316111 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4590008686410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.55697632862443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.63634023948801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.17429683045120 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31723935213158 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07985686406837 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.479669995089240 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53864897571241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.448194505699527 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81406484051565 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.63116987359553 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16291616300023 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.11513845389696 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19015803766329 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29033997936571 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45062826092720 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63436101030959 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01151606565492 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15096008077671 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4379195817855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.55928865212491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.63940712966477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.18004971207851 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31935974072668 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08157481082428 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.480088531045072 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54122990501787 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.448488544592809 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81685495105084 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.63597856959363 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16206615192858 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.12226268001251 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19111411308960 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29231234078978 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45174001800245 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63505864131357 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01190667282300 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15101655813941 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.4170816768500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.56152899133741 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.64238571697489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.18567733682852 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32143402042655 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08325643122587 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.480498759971699 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54375468021869 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.448776851272794 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81957284875785 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64066310409420 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16121837667060 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.12918115722839 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19204588774572 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29422851118711 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45281953343093 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63573674731362 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01228599081537 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15107070006004 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.3964934396673 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.56369964758695 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.64527908221165 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.19118399619444 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32346401186616 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08490267270710 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.480900888813930 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54622503821016 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.449059522603699 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82222083341268 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64522675712031 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.16037885507664 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.13590037903232 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19295415351132 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29609011875153 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45386781775436 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63639584583969 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01265439597416 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15112262984384 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.3761604507843 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.56580357626163 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.64808793963791 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.19657209461396 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32545031007406 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08651440094843 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.481294911021119 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54864144367444 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.449336605808915 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82480062378413 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64967105189728 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.15954303093801 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.14242517310095 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19383940430018 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29789886650497 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45488591120343 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63703672798317 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01301228132374 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15117245969480 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -23.3561059600856 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.56784255089016 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.65081399797963 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.20184302308428 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32739368984366 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08809916020525 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.481682177760741 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55100392533410 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.449608211073809 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82731352054650 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.65399811254315 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.15871615702525 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 9.14876126219007 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.19470215768544 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.29965644055585 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45587486548505 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.63765998038493 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.01336000605627 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.15122030469483 at nshe,nfasti = 14 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.459E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.222E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.285090001672829 Pqlo = -2.568150379583692E-002 W/cm3 %fp_imp warning: RF renorm adjust = -23.3068233257391 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.38231191169068 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.42322196966153 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.07061157099168 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.30738694141214 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05141416947841 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.484147716290357 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.03608472095798 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.395758309507677 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38722136360974 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.19789610544418 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.26350698127401 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.84517043540733 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13229785824864 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25917107843389 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45101197947332 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.65760027001655 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.03978797516788 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17848872833202 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -17.4436006004042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40416051182097 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.58077082931845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -65.9716182808919 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.25956000781708 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07300024654469 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.495146810977357 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08264688938111 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.402762349774488 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.44582586789345 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.11325944117270 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.30181279176380 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.79172716969029 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13364785188140 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25118733987950 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45190795149458 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66100954417778 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.03939397159352 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17769976834117 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -16.7754098232165 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.45943552806395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.63441877758970 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.96293723803637 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07585930650947 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.493782767458012 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08112104405014 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.403628902985260 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.45788377092202 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.09231499429210 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.31909831952635 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.78334215465381 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13475227586313 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24921472124316 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45323668669293 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66241338488755 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04009120134521 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17767325286663 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.9545410921443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.36867327484966 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.48822674374218 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -33.0276134036844 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.59574320929656 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10716804019822 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.496166824008961 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.07932215130329 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.404127321824586 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.47511657445300 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.08792630618042 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.498814060616176 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.32396805432812 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.79430091093638 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13623987245080 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.24905986771489 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45431028148679 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66335745254783 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04053761346520 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17755990659198 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -17.0270531361114 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.43084409194340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.57093352639956 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.14267913909350 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11180464045905 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.492398492611355 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.07961029726083 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.404862247091073 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.47867223338873 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.09241030769373 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.498901549280512 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.32698444127281 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.80189926082531 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13725131914512 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25031095726778 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45537501215733 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66410909945225 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04086627464274 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17743117620709 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.9375383619613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.30927583528887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.30343585796590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -33.8993424662950 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.73996928377179 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13700955847359 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.494730399566957 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08171888626254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.405417570785689 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.49191674643846 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.09835030138827 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.499022937212743 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.33319410802898 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.82091747525705 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13887243742956 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25235665040175 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45653085292407 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66479354093194 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04112928805707 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17731165783456 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -17.0554056610878 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40025059151697 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.54298803422844 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.21857592763169 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13468747691990 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.490976060787522 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08375109690697 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.406070785439172 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.49271070172141 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.10387159986565 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.499453393336076 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.33574906901863 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.82989573649855 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13990103213821 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25464240942286 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45770618706002 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66545633797538 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04137632348206 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17720314054077 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.9235973807826 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.26429310645624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17443955053377 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -34.7165472958963 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.80839010982594 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15444841169130 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.493600632662498 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08616469175072 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.406481487088806 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50356721526731 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.10913935456675 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 0.499628732125984 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34096460110600 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.84798115463430 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14142337880503 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25709159841328 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.45891944477257 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66611150037553 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04160734953741 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17711531557264 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -17.0093699853174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.38940465984896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.52932213100905 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.25680012777325 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14822828128519 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.489998197082995 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.08804988553819 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.406990930570738 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50246577475985 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.11371349132801 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34226678876440 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.85502329016144 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14227814795296 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.25943523993158 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.46009705568625 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66675728873714 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04184374590187 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17704286274236 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -22.5746951417535 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.25647468475509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.05416632808488 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -35.2618068757909 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.84666805599030 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16509094861459 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.492803919216599 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.09007032987106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.407274661458005 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.51183009360706 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.11811145265825 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34567379069301 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.87103659302474 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14360188013500 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26176461447853 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.46127198758464 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66739196789389 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04207205991946 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17699133829900 at nshe,nfasti = 14 5 %fp_imp warning: RF renorm adjust = -16.9773770415895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.38641649314847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.52468578872974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 5.27954675602836 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15680976606681 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.489311674298432 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.09160684771773 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.407680874950820 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50948034245004 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 8 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.12216403669050 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.34382575230389 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 8.87611731388811 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14425964204898 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.26392586047717 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.46239233321758 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.66801273920522 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = 3.04230832549640 at nshe,nfasti = 13 5 %fp_imp warning: RF renorm adjust = 2.17695324168070 at nshe,nfasti = 14 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.774E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.551E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.527E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.506E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 25087 TA= 5.00000E+01 CPU TIME= 8.11505E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 15.4453300000000 %check_save_state: izleft hours = 64.4752777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.000000E+01 NSTEP= 25087 Hash code: 106935416 ->PRGCHK: bdy curvature ratio at t= 5.1000E+01 seconds is: 1.0435E-01 % MHDEQ: TG1= 50.000000 ; TG2= 51.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7950E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0435E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 50.000000 TO TG2= 51.000000 @ NSTEP 25087 GFRAME TG2 MOMENTS CHECKSUM: 8.1271100952088D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -5.10340E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 6.94330E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -6.91479E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 6.94329E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -6.91496E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -5.08848E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 6.92305E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -6.89461E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 6.92303E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -6.89478E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.464E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.877E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.81134800000291 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 5 )= 4.56627942039171 q( 4 )= 6.09473503410963 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9140E+00 8.4267E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.5 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = 4.85028553578090 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.07102243758131 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.50491041308743 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.86279574853409 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.06868019144133 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.489352018562845 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.80430508430244 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.469900919555384 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.16946727789014 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.85331614996784 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.74271882451479 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.83684392225894 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.25603641102533 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.54412312728717 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.15131080919372 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.00373771630719 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 3.10265392042461 at nshe,nfasti = 12 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12878 %fp_imp warning: RF renorm adjust = -30.2493772754152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.58674764922149 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.14526819210345 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51339128999847 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.31780552249853 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -208.244297099956 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.93431074690030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -22.0661389463732 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.84919737253541 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.35052897400997 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.28391082207180 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.48031545426801 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.80561433540843 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.412713952676939 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.11846586038000 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.78496969080224 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.1201000500134 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.12654882398777 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.79986223611589 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -84.6316054425961 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.3116821020291 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80972042601863 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08407139654046 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -31.6815444977230 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.08752434842462 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -16.0299335791311 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.88256668867669 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.73795499519567 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.22745593540425 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.53916499671693 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.71255546087717 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.409267667847725 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.26417855324973 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06090837983466 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.71056814449723 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -25.6363096864247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.69345388388462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.23421911132051 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88535349067770 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19289355461453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -25.4773809790991 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11032760397248 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -14.3427318200446 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -325.260184114228 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.83063357927432 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.27031901794675 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.57287851447026 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.69525240161526 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.404557343139721 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.23256838447931 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.06786032269904 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.67255583860976 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.2180735836422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.69030346270220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.91256816748743 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -43.7384130551003 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9870104297933 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.15379291160314 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32497040754788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -19.1402347713099 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -161.496399380421 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.447068195370011 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.63772699951184 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77449673083736 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.18199015791347 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.53770852879233 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.65943597847592 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.400715172263491 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.19580899367128 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.497828946644568 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.05036663748584 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.65127557914306 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.3752992220212 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.26781371943878 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19975256691111 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31831516753074 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -14.1867380228390 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -139.813068980096 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.81878585854877 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.22706050129751 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.53756722959325 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.63643494506170 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.400347999440300 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.17712747690535 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.496405991110792 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.03727498423161 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.63850022414565 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.6739859054774 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.87933709395808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.78078640194689 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -47.2716818892657 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0126499930830 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20932869037948 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.30496817421443 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -36.8990733230360 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -135.581025150119 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.05795435477086 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71866351186061 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.09129883981390 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.46844640277184 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.59322243246343 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.399425632657341 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.15588183828166 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.497368117310682 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.03208029377345 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.62958527970787 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -25.3019314367092 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.83839601664727 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.43479122372365 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19109302163335 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.27853132980101 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -15.1681774103232 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -127.988866438374 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77248997469458 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.14722873322762 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.46589704466319 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.57369322779816 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.400368587546846 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.14075773208647 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 0.499149349870921 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.03310066703696 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.62290915432220 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -25.4674374296979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.87488781258663 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.97633495548359 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -52.0476510397941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 12.9984257833191 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19480672081755 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.26478142907795 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -70.6775427785528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -120.998984457246 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.58432439893171 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67563488686598 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.02596848785002 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.40370326619850 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.53797083753879 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.400047880901545 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.12106378914913 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.02691275307381 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.61737894374695 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -24.6271365479927 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.35879127970373 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16636605715120 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.24534207375431 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -14.5870809556226 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -105.454902406834 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.74826463955976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.10644236077656 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.41321540863786 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.52696854317402 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.401290085773786 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.11204640759452 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.02084100970584 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.61305284348375 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -26.4194882304522 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.93029182529996 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.63397055587861 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -56.1331169803462 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0027513381239 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.18060640754543 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.23842937012499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -138.752774433992 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -111.935442103397 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.37740445150185 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64669362218586 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.98942348617781 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.35712923165488 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.49699511020227 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.401040218359312 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.09900531292184 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.01264011157605 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.60933337724445 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -29.3420164273325 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.80255658533959 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.32587407189349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.15068441796882 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.22421267265273 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -14.2804914393818 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -94.8186003473380 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.73212384277943 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.08007976044616 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.37351015903373 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.49148153841553 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.402303742331895 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.09431127692790 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.00838848602072 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.60630185995573 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.6463654096161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.91800941412238 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.89265688242131 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -58.1797442089856 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0166466682168 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17217164990281 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.22206699582084 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -322.485031206617 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -105.584949480213 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.25118772965829 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.62748720131504 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.96437659842051 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.32179257038842 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.46586895259231 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.402050904103224 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.08347057208638 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.00144457793891 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.60349720567760 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.1772974937352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.19910280887489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.97504744711268 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.14119354119445 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.21095820899186 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -14.0686911519838 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -88.3719206568457 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71940674265832 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.06048009716102 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.34237075029429 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.46447490993979 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.403284420877730 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.08083472511319 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.60117079769326 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -26.2883627894424 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.43399253897306 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -59.1968863582755 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0364994528807 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16753754279218 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.21171031665208 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -1691.05675211741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -100.961997778814 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.16969934321371 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.61392220624586 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.94564513484828 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.29394584048446 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.44219251042866 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.402982689516956 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.07096109819494 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.59888425923096 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -28.0870207438739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.19348682932380 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.93069662862514 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.13574227352172 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 9.86540862442373 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.20252198478073 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -13.9270633826574 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -84.1219785536249 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70911726749243 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.04473260764375 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.31832012076878 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.44430007789510 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.404163415601891 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.06755518365638 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.59683705210938 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -26.4840146788471 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.44881136195971 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = -59.7047801830669 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 13.0587849421118 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16529535999991 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.20513791941503 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.11543812378452 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.60317308638075 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.93095670637039 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.27262214755165 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.42469590407686 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.403823435697191 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.05868353427556 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.59488976124725 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -31.4663208441720 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.41901815382228 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 9.98740094935382 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.97361395045094 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91981949972613 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16220067675527 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -23.3946947411276 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -161.828273773371 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -13.2727541795492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -99.9446568348344 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77398225482627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 6.05323936881940 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.31238430216645 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.43606046211638 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.405144508233177 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 4.06083301390625 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.59383604262047 at nshe,nfasti = 12 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.464E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.877E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = -44.0942818803927 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.81135425495914 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.58662538431969 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.78534116013741 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10750861249673 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.99055251721249 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.05185912450028 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.09742971316090 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22970294441015 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.422261515152153 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.94420202000554 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.78040484469388 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20120188210228 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.489736102669621 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.80128630729999 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.55275284853959 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -27.3114305647575 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.05183419294011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.88970509182459 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.49169207969145 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.05198671885803 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.38053794034054 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -14.4957934735875 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -94.0697584653025 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -13.5441176820185 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -102.200333731925 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30190858873454 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433080966728842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96389313468124 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.77471406975049 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.23795717380995 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478793827858903 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.79894417342213 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.55208705741850 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.2554023747279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.08422069932270 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.99266925661923 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73794266874285 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.05840116747809 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.17380609742183 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.82912689228654 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15129674828344 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.413056525621007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.91307148774138 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75054925298916 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.22112476799143 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477087565112896 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.79256965684062 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.55075607434171 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.4244106469666 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.14266332142241 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.04713586283323 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.56265334428481 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.50657672045939 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.56171302776681 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -14.5924163525880 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -89.2200957337277 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -13.0903625652559 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -91.0251587580887 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27616343436327 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429952868996949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96182979247263 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.76738860598146 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.22674391322593 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478915026768909 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.79381500212134 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54982355951641 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.1361503551481 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.11954252096221 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.06303865109009 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77487846019530 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.49030683834446 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.27274135704257 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.85712633453547 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14373082720676 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.411943490689014 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90988965355137 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74270907463270 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.21187093267872 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.476944825263760 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.78661099103072 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54838426227727 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.4606018664371 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.16765999991056 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.09176521508063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.57351508915811 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.64421777896106 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.64256521024221 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -14.3428124161179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -85.0188886924367 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.9539053687529 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -87.2687577013867 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27506522275969 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429674857846924 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96159364167106 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.76098803300326 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.21890637712895 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479015640569654 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.78828359665740 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54748091438820 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.4427474493267 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.12911654718670 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.08540062718711 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78619164135421 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.00747039918611 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.64594090069798 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.32079208200622 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.88229922705430 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14457980861432 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.411954471857152 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90993077807605 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73743430738963 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20552362749299 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477071998354833 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.78175892758041 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54620107600106 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.1648049010229 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.17897946846286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.11038732821033 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58016747411173 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.70042374505485 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.68360145194839 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -14.1449901865548 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -82.3817358107316 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8747928962393 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -85.2233115232244 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27715422426553 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.429854541928027 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96220251572729 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75660122112991 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.21367044153212 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479173581558760 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.78411191541920 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54550647507545 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.1922474164812 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.13731776775705 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.09911403932597 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79190611632380 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01142764268528 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.72562615542301 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.34803692457590 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.90225631818467 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14645331707960 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.412164853606517 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.91020137411016 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73363434525961 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20113653172504 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477235387464881 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77817402649769 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54444091571395 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.0263475998117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.18712665011925 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.12209928711451 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58453000149622 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.73164213007149 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.70889187974943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -14.0098538339935 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -80.6725134524109 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8255654920439 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -83.9439929716681 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27933364162327 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430110543325221 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96249695252791 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75323862392298 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20992559614917 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479352205542466 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.78102170492484 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54395058642145 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.0556578427720 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.14439636591772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.10929656566603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79604032063748 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01429544416429 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.77637869649831 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.36625961239566 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.91693148195689 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14819515949031 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.412411379317256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.91010151804754 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73058612108000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19790913647610 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477416860768430 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77549013544532 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54306919615469 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.9460149272298 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19385695246876 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.13102361228402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58770311038443 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.75280543983664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.72697349401124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.9155346179541 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -79.4922858973783 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7932640701104 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -83.0703297418267 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28121660246101 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430379372185253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96234823122678 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75044588904840 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20711031418512 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479541826108017 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77868898592135 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54274426568805 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.9624007374590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.15045648165379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.11758839295957 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79938713177598 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01665640415445 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.81377625779007 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.38017504305104 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.92816031061816 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14971118319026 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.412669961143764 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90965462518431 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72800787075770 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19544812381355 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477606631870892 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77344722921410 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54200769419364 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8938336538620 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19967301922701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.13844922149449 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59009231891173 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.76908693065394 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.74133182696726 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.8471058540691 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -78.6352089188719 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7720780070221 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -82.4475184037470 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28285999204422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430656701766487 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96187475569189 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74804556552323 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20493952171059 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479734880225707 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77690757652262 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54181126470109 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.8901615696418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.15579853920687 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.12470997232985 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80230008403349 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01875675942787 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.84448330275997 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.39179995473891 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.93724129048224 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15107221263282 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.412940259083613 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90898259523066 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72578051788207 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19353977236084 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477798944438294 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77188199309537 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54118591514228 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8576985741472 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.20481789606107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.14489249739506 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59213371670557 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.78262854824344 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.75352779866946 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.7960489697998 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -77.9925231656568 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7587676425919 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.9957416126968 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28435449800792 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.430944840562735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96120744820008 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74595580822011 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20324808259113 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479925039681037 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77554556082587 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54108828095246 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.8333866285177 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.16054801892407 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.13097951993381 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80489917297122 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02066110876057 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.87070443384955 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.40206287069841 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.94494488936264 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15234870905676 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.413223414472023 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90819187951338 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72384077703676 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19205033478844 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.477987050667547 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77068933264500 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54054800747422 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.2097378072412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42397077597707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.84504754234629 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59437511059877 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.79485946582354 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.76446352526980 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.7574645747333 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -77.4988066993161 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7514496192627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.6668059587978 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28578095066018 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431246671602837 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.96044616052034 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74412673127878 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20192555931234 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480108121363385 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77450861440832 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54052561647392 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.3124462006684 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41346896845997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.85140983344123 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80731271569497 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02244424067053 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.89452370102512 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.41148793591612 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.95184176523992 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15359609458458 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.413521127560249 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90736659648657 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72214979058565 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19088964702941 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478166645868276 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76979150703080 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54005050984104 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.0395277109565 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.30883509555596 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.26092789726324 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59553377817993 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.80458634953677 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.77412965688085 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.7265604092187 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -77.1164819343471 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7482693417985 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.4345975701199 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28715064122006 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431559632628431 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95966851068966 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74253812899670 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20090123350546 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480281529300963 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77373573431361 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.54008565265228 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.0578478182906 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40479731264798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.94226185129697 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80835668320020 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02373179652186 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.91409635155091 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.42009713938492 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.95796156989117 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15481956140556 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.413829973804620 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90655376259116 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72067900473651 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18999339278681 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478335398224352 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76913210961362 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53966032536920 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.3751542284704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39088359228541 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.97569237939633 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59704031394513 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.81506183964283 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.78350710864777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.7023526683188 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.8095539713299 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7481811961252 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.2656491787955 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28853119116903 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.431885350417970 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95891933348436 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74115400270039 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20011391588461 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480442146152148 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77317855577302 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53973983256517 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6922749314085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.17236287683865 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.14515261819043 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80990331525893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02519242498144 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.93498636657956 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.42864777137735 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.96394250427456 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15607194122663 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.414151905129157 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90580776260742 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71941239912150 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18931477589680 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478490721841312 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76867017979174 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53935329771529 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.7912840626498 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.22044450388209 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.16385677602301 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59786413257271 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.82430656759707 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.79231347926611 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6818898377260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.5608168798915 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7506510634162 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.1537151919725 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28991661156638 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.432221289217400 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95823861211684 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73996702286609 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19952626304405 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480589145144480 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77280123988356 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53946752383882 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6857316621973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.17506610850794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.15020172850063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81064228081174 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02634342462211 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.95334806651318 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.43667616102840 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.96959204148254 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15733321194117 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.414482690684748 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90514334452174 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71832870436650 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18881560539222 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478632321197739 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76837082797909 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53911140801900 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.9550696582249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42582277047789 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.85922842844560 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59878436777705 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.83336557350158 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.80079505180583 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6655424178929 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.3593271454848 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7550925806785 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0822741065260 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29133012175253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.432566291288337 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95763966127325 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73895019874177 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19910085109214 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480721921441597 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77257141787172 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53925322454396 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.2533220788953 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42609973209606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.87008625061834 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81114244668476 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02738394089117 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.97164646843399 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.44447265864725 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.97516687051229 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15861946772391 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.414821348357555 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90458183377456 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71741449755566 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18846756069761 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478759645361979 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76820724502143 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53892167161497 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.9928263284120 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32304288995370 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.27649472874083 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59861915638162 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.84097201413222 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.80869722625271 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6506398984294 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.1924384834822 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7605782314844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0451031101296 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29274507706366 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.432915438076082 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95714427507991 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73810306479913 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19881843181119 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480840679525273 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77246733759963 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53908609315642 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8733129525831 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41759640060222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.95876693414263 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81044499797806 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02785963369687 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 9.98726281576057 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.45182479933636 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.98044038408250 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15990717703321 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.415162438943900 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90412167637965 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71665557498797 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18824809629061 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478872961987750 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76815743501418 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53877462092130 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.0967037840046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39077027587059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.99224265487534 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59642759479764 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.84950436063666 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.81659992048984 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6381467940003 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -76.0487666990140 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7668489083546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0260452728356 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29418813624854 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433267953918047 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95674939347644 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73739791426942 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19865158775475 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.480945084008554 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77246674214542 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53895788809049 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.9161897154514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.18805354339945 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.16179902461185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81365135898998 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02932276930995 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.45875417968295 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.98560795244917 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16120081370774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.415504069112358 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90373638969012 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71602034922696 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18812870532234 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.478973421638247 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76819977300978 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53866314197040 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.7514818908696 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.23150868909381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17849595250535 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60661785255065 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.85729774822319 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.82403600333507 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6272923010305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.9310845836346 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7740287307074 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0285386778453 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29561675663148 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433617980836856 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95642890049165 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73682003666319 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19858179154065 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481036890845025 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77255156566150 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53886258433125 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6606518371110 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.18580428742365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.16460632374382 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81886480240031 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03190066000600 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.46616948966874 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.99088270511277 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16252074331195 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.415846355477312 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90349009332231 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71553362609517 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18811140248665 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479059886750091 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76832501737565 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53858254393480 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.9173903631300 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.43393754700038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.87612492235809 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60596742061533 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.86453206432080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.83124989946595 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6176372281006 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.8258012855040 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7819547900312 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0452021434042 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29706247717431 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.433967959263850 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95621069730248 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73635965498513 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19859371255402 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481116398974233 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77270744318427 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53879540945797 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.2320480629841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.43560833333388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.88787503902026 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81824707021760 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03250176463391 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.47301025299891 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.99605987559249 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16383462292916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.416185645891074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90332216103026 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71514712482045 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18816409169310 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479135356846225 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76851233809900 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53852764298470 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.9722400142112 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.33251865121048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.28847893095784 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60495455906463 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.87095568562266 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.83814171151611 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.6075499773192 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.7321228688712 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7894978187206 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.0731961148999 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29848795217317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.434312456404346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95608466262651 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73601209173408 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19867817893330 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481185011740865 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77292249189543 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53875203878944 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8332507407904 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42663515216680 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.97125104357125 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81669696982555 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03263762261531 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.47948407688863 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.00098060731865 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16512514862848 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.416518197582987 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90323353156384 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71485797538521 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18827932832981 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479200204098212 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76875171193524 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53849432167052 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.0581446360242 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40140335937194 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.00338857508854 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60244257014718 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.87841121405110 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.84509442994143 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5986540775417 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.6453637646909 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.7969701441928 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.1029685102954 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29990842232359 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.434651249262892 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95603197922840 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73575140993107 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19881660352543 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481242950743962 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77318369886741 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53872823761324 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.8573508829938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19542948551830 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17282769764217 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81929914593838 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03374651115613 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.48552860487884 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.00578544312310 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16639211213589 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.416842836390967 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90318683324601 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71463620356668 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18843676642950 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479255857733113 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76902996297469 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53847868901820 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.6690004722213 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.23892838470286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.18829142709267 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61170521778627 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.88506997244953 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.85155964998891 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5906452441698 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.5730691156027 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8046335475168 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.1413770537946 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30128479925036 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.434979706109278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95602250292860 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73556466322696 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19899857312163 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481291949074537 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77348133006312 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53872058826188 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6355858917453 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19330015063213 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.17553346244589 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82379741714667 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03600330742521 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.49208003794648 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.01067661175125 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16765980229489 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.417161170624196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90324818836981 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71451487008212 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18864761531727 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479300880993226 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76934647473617 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53847833635985 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.8894178953980 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44104720336381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.88833717974847 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61044420203668 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.89128960989026 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.85784948129304 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5831311003535 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.5030941695578 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8124740672063 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.1830860254025 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30265560941118 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.435302115438236 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95608723051588 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73544997153558 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19921767772161 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481331890565846 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77380918900768 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53872636477615 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.2183250718446 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44287847079685 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.90058070268947 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82245628232488 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03625789721240 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.49802995407555 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.01544948422879 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16890061866840 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.417471087619820 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90335891063309 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71445084466090 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18888752485614 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479337949419052 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.76968767603941 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53848996462435 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.9539182536261 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.33949302093178 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.29799117302625 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60849888495000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.89667521389690 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.86381067228328 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5747294607343 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.4373826382057 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8195265118543 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.2277985068235 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30398576769466 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.435614103184947 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95622027170097 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73540880510572 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19947222360807 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481363830730663 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77416202273783 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53874334411060 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8868056456453 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.43315337412297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.98382749382924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82357113565303 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03697118820929 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.50356639214220 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.01992583985977 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17009823518006 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.417769740522636 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90351753887452 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71444519420603 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18915506254504 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479367304244706 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77004928752055 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53851166198492 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.0962593316627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41433447460414 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.01137518392371 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60992667831110 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.90314953858541 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.86978088556562 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5675393543349 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.3748806731975 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8263247189222 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.2677897952596 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30529441736106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.435915938548105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95639417115339 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73541636090907 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19974803710835 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481387980974749 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77453160316995 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53876952826503 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.7066065929573 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.19935746279044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.18139467617352 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82458448039614 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03775862209516 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.50898672267338 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.02437260856478 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17126936950570 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.418058234290295 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90370737271569 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71448548028797 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18944105315596 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479389703914300 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77042522335689 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53854193916518 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.2368997171105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.34485001803003 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.04947412577188 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61376990932003 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.90883399185250 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.87538972395626 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5605985364303 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.3186495045726 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8330269938704 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.3109622234604 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30655673614873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436206125066001 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95660515381435 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73547157157211 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20004236883901 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481405755277640 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77491329906770 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53880369067223 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.3756000689245 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32139782739588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.05119606318508 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82549437299032 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03867708206836 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.51442800643339 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.02876856473885 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17241631192945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.418337030493842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90394805612975 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71458104130763 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.18974820334630 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479405301102464 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77081283724585 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53857964183811 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8583593417180 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39427116943599 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.09473610614745 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61105915122243 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.91371600617178 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.88067347810467 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5536401878131 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.2646240301470 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8394110406423 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.3546959123002 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30778318433498 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436485830242005 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95686136272914 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73557067426588 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20035118827533 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481417824005739 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77530278058816 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53884443027464 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.6178694750325 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44185645711949 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.94733618238891 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82523662098414 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03888608627233 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.51911422928782 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.03282756302598 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17350615903806 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.418602882132355 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90419619509864 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71469866831703 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19005955817659 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479416432729844 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77120253739193 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53862293554872 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.0025301910147 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.38665077022205 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.15792748288246 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61388682054279 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.91883351037707 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.88575813949847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5470698499398 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.2147742348591 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8452099568594 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.3952237934639 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30896188776286 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.436752647564863 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95713743305485 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73570014951617 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20066746300785 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481425096903634 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77569440988364 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53889035760489 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.7372838250014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.31671114372879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.08568068447957 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82790829754138 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04008598053815 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.52385787167468 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.03679443171467 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17456134533988 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.418857213504279 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90447620909231 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71485075893144 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19037974098337 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479422541672187 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77159421342769 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53867104647609 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.0240132346299 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44167541149970 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.96526316612477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61723632583412 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.92402081543050 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89068038584395 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5410605643969 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.1664588506132 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8509498982877 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.4339201583784 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31010163615880 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437008021739253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95743097889395 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73585300359241 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20098636355251 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481428066012349 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77608463151040 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53894048414826 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.3586443891188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32568810948733 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.06051659237856 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82902222639451 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04104793864777 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.52875602979925 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.04080666847242 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17559423044503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.419101894860273 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90479489787149 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71503595775968 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19070667065923 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479424130491061 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77198499143047 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53872300175576 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8477696446576 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39891692704345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.10681333348952 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61478327327897 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.92824329172166 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89530293651071 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5344618846204 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.1186821869911 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8563591640195 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.4743524790781 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31119554803377 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437252478696912 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95775488771502 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73603463798399 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20130948101777 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481427532311650 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77647184557466 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53899386619508 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.5784646809902 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44706403831681 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.96326016795643 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82881825039196 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04117839279992 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53280951817018 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.04444517333856 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17655405205205 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.419333378135326 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90509854849426 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71522295442668 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19102556329582 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479423644140963 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77236671205849 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53877723775684 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.0057534406162 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.39156461366330 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.16213205358341 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61780635228743 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.93272425621712 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89972532722655 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5284170764901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.0756686986456 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8612433195844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.5115592723533 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31223696996292 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437483992083672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95807894603400 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73622727905718 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20162878639297 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481424481756392 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77684957791463 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53904915878367 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.6216298234574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32089990700578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.09052858168965 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82916406247882 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04616098601958 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53712013054947 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.04800391933955 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17748094818278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.419553814433766 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90543331410506 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71543647367550 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19134743028208 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479419880165771 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77274231322202 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53883340640842 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -22.0089839188482 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.42867741807339 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.97129199984064 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61880336698683 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.93553680036967 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.90320248337715 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5248090874063 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -75.0439263690708 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8669837495700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.5512274569620 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31322327687092 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437702847928078 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95837369492014 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73641083083968 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20193402039335 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481419996891827 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77721433503387 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53910542730614 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.3874849899156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32983052950285 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.06819867899265 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83225682893819 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04305965578060 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54104807529824 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.05140534124787 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17835615890671 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.419762026268052 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90574573976501 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71564339661038 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19165653979643 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479414880578672 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77310448775371 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53889021315618 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8329289655678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40212289510188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.11198923193609 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61832928929876 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.94064267858080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.90783145239116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5174075490173 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.9968955057885 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8706628987744 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.5840234670666 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31416764184626 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.437912001960476 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95872996143771 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73663322885189 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20224683971349 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481412749669414 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77757285186503 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53916274687575 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.4670464307763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.45200554511438 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.97914467128181 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82976411611586 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04263187370793 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54468416998794 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.05460303424424 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17919154862809 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.419959830231769 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90607087466093 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71586030262158 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19195979799501 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479408391107043 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77345535087623 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53894728232528 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.9667252857363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.41952554158264 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.02577430205354 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61495384816185 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.94463080021674 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91170773772787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5117719425765 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.9577107539558 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8746213364752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.6161932110246 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31506125000364 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438109357191358 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95906085633922 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73684479808386 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20254440068276 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481404843583256 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77791614271101 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53921967593719 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -18.6679364292938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.20812683993159 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.19535571148187 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82953376445086 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04272520369754 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54804855847000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.05760890658096 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17997641704185 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.420145768341963 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90637486939945 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71606922674293 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19224950758673 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479401251076069 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77379106956123 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53900375006876 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.2157224516764 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.35524807289150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.06478711244323 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61716439175716 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.94831759529294 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91528345484831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5070234711090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.9259037367516 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8786130688149 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.6494282311895 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31589906091214 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438294613717017 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95936849813566 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73704845864973 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20282848111246 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481396507740424 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77824397817378 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53927575442143 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.3615659095776 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.33148742675422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.07569503688216 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83154373467758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04363254516002 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55127433370792 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.06047478638850 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.18071895615211 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.420321001142442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90666848086477 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71627403447574 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19252725477272 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479393617532900 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77411173240771 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53905921851826 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -21.9051726403792 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.44207812354172 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.96661981951386 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62011172523666 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.95147988578634 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91853902676631 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.5026705834492 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.8973885032472 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8825142798552 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.6825584340455 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31668731129323 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438468771960884 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95966036749919 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73724526940079 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20309924171709 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481388056926979 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77855630463743 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53933055066274 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -19.3342612886525 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.32925643969910 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.05659828035737 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83122067369579 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04388287686428 at nshe,nfasti = 2 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55454448994110 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 4.06325712588653 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.18142868142608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.420486709040545 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.90696801773363 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71648282735219 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.19279701431930 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.479385221788696 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77441865047269 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53911341475886 at nshe,nfasti = 12 5 %fp_imp warning: RF renorm adjust = -20.8156897033770 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.40471463933740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 7.11462735436029 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61627634777013 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 6.95423495497972 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.92162383959970 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -13.4981212038553 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -74.8694500355489 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -12.8861028472040 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = -81.7154471648504 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.31743193678974 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.438633226895557 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.95995239759164 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73744175155491 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 4.20335981736697 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 0.481379369197566 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 3.77885404084945 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 2.53938381534236 at nshe,nfasti = 12 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.753E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.575E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.541E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.505E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 25587 TA= 5.10000E+01 CPU TIME= 8.11458E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.0604333333334 %check_save_state: izleft hours = 63.8602777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.100000E+01 NSTEP= 25587 Hash code: 100174443 ->PRGCHK: bdy curvature ratio at t= 5.2000E+01 seconds is: 1.1287E-01 % MHDEQ: TG1= 51.000000 ; TG2= 52.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8720E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1287E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 51.000000 TO TG2= 52.000000 @ NSTEP 25587 GFRAME TG2 MOMENTS CHECKSUM: 8.1405669155026D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -3.78387E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 5.17308E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -5.12977E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 5.17307E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -5.12986E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 2= -3.77311E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 5.15840E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -5.11522E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 5.15839E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -5.11531E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.84114599999884 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.85451204526895 q( 3 )= 7.65643204884976 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9131E+00 8.4284E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.6 cm.B= 4.1980E+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 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.15664296496804 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.69924249625747 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.12960058180705 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.48924800860986 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.25995795965594 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12837 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.404870318760882 Pqlo = -2.812114420841480E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.31374398667802 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.46916690239956 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80489734641656 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03420954261977 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23118345960650 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13709490360019 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.23883165166834 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.48056660202435 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.29981738976158 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.49991317653490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18845643948286 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25563053932036 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13832704802233 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405107116697803 Pqlo = -5.864987033835021E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 8.55264920421354 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.41776930245370 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.66825654047107 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.32786289504756 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23585758973251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25621302572899 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14619384545929 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.47031958002876 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.53945028467900 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.47661172761940 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.74748972739610 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.28509090627035 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28777174595636 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15476513455389 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405284592074643 Pqlo = -6.514500635202829E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 8.92772802638434 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.45352446961023 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.02391005146823 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81272451475073 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.44580688680089 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.29198121429103 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27681976819741 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15491501472014 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.89454161579814 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.56796358663818 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.54518392899496 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85306407434522 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32491569780834 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29847868623429 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15894421722369 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405402991043104 Pqlo = -6.914431486118264E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.23669629890139 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.47447601010881 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.05502249936983 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.88696381279119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.50108025762528 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.31790649324952 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28041034567857 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15578537310262 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.58201527839247 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.56395517868293 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.89760759748926 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34110210902712 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29731025000032 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15746267755062 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405465267423604 Pqlo = -7.090950790600380E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.41179490894187 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.48332369708150 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.06954084370281 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.91171059889978 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.52136057844777 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32748704761893 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27649001276391 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15313370594040 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.58591519792133 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.00082333861849 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56145310320752 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.90917458666357 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34541264156649 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.29162397064127 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15394164622084 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405489636442060 Pqlo = -5.328378554633183E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.49282331205890 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.48548189233025 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.07428553460474 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.91308451322149 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.52451139683666 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32946322936539 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27043610096606 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14953683786655 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.58438399403440 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.00338614619931 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.55136860165715 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.90586965847754 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34487521650273 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28532216885772 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15025549842857 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405485451863134 Pqlo = -5.354999132008002E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.52327835204869 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.48446458536838 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.07481089620536 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.90594801018522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.52065775888709 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32843881838802 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.26459012921275 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14615822253023 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.58079948815963 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.00322943246296 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54116809552227 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.89776964598247 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34270289149268 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27968562188708 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14700684516801 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405476344250175 Pqlo = -5.337698975339154E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.52706082545503 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.48181792988492 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.07323760200222 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.89636392706226 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.51461812612264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32642931767967 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25965388929498 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14330438868321 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.57747394144556 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.00177406054278 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.53188344306813 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.48344140103413 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34020232611413 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27509097592235 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14435641652163 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405457636720855 Pqlo = -5.285070034173257E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.44304028344404 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.46248891556590 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.07317071514552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.88439541941844 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.52210219550330 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.31982623955358 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25423619163542 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14125633572609 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.56310636267091 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.52716358499131 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.47780780283302 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.33667166736226 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.27080264696183 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14243136670607 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405457390569153 Pqlo = -5.236634453386718E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.42303234581274 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.45431570358638 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.06944381170222 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87622053910835 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.51602242929549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.31767078441554 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25077155868735 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13951137995799 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %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 5 %fp_imp warning: RF renorm adjust = 4.55661101249349 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.52137068937974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.47234559487975 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.33439234843238 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.26777339682335 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.14075548281380 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.561E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.150E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.245E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 4 Pich = 0.405449267563001 Pqlo = -5.211123140213292E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 9.40173807691700 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.44916361167104 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.06678765637730 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87015924426892 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.51112797913058 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.31597365204097 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24825355309391 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.13807309601686 at nshe,nfasti = 10 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.574E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 26087 TA= 5.20000E+01 CPU TIME= 8.12336E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.3851616666668 %check_save_state: izleft hours = 63.5355555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.266E+03 MB. --> plasma_hash("gframe"): TA= 5.200000E+01 NSTEP= 26087 Hash code: 63208020 ->PRGCHK: bdy curvature ratio at t= 5.3000E+01 seconds is: 1.1978E-01 % MHDEQ: TG1= 52.000000 ; TG2= 53.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1978E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 52.000000 TO TG2= 53.000000 @ NSTEP 26087 GFRAME TG2 MOMENTS CHECKSUM: 8.1540237357965D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -7.28943E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.72071E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -3.64483E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.72070E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -3.64460E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -7.26881E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 3.71019E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -3.63452E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 3.71018E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -3.63429E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.659E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.453E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.363E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.74932000000263 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.75698931427314 q( 3 )= 7.59713898758276 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9129E+00 8.4300E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 7.62838381571996 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12731141740132 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.04715095640492 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.52025086061814 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11621100176553 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -178.081705713986 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.38046962368591 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = -28.2802526908886 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 6 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.99455385686599 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 7 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.306889961091404 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.69826328287650 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64318287893617 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23433922626675 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.23566861646511 at nshe,nfasti = 11 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12802 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.659E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.453E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.372490178321712 Pqlo = -5.381711300345644E-003 W/cm3 %fp_imp warning: RF renorm adjust = 9.56052733712612 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67064051410376 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.52722611214531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.58188923505963 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.04449047177563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.59806310292458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.448584825158318 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.95497378688212 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.336116603662739 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.32439897479542 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68142139205179 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25324467099713 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.04830336845453 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.10873184316746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.02901707076241 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.15496847201249 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.43061689010825 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.09226662248421 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.81271467609208 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.450908617952601 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34623488371211 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.07728380664040 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.61899529224359 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.20149430833028 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.05399475302377 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.30445859044091 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.92305372413225 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.37501022190005 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.47256100097655 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.36234457038023 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.52737556326631 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.94388846342388 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.56229245852637 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.15854948063496 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.01945014214300 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.00203360874667 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.21921198906182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.93016281938511 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.14610762943869 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.02169709182383 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34764266074634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.83714385813070 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.51043099226611 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.11641055402376 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.01045569778170 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.82945812125370 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.78549515598888 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.65414637794791 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.90261823419030 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.94719612772949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23432859366304 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77303507964607 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.46846754260664 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.08087653220056 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.659E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.453E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.08749310010328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.06281688768872 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.32666873397660 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.85561073051904 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.07110717423518 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.76392228194365 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.51616810638992 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.418550297391474 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17722955099906 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.04972490661705 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.74717310697838 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.34298929305063 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.07699970961109 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 8.97084313950991 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.89989831724570 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.42043442307509 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21694340286104 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.37237889103738 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.96947585436245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.11200861548801 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.77224661865120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.42188923709370 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444284233953879 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34324410331053 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.01752360243395 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.71720457568329 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.32038629995653 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.05799457111033 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.63219783240644 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.88577765540822 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.65069277330369 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54158453209953 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.69447518736969 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.95308310527619 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.15957093732324 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.82724398259837 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.36419629435470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.465858756261931 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.48321921718291 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.00095279190669 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69526300273150 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.30096043274669 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.04132965680707 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.90273912880958 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.10037387516863 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64685884608446 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.86264507681727 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.94501416631622 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.19780007744363 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.88474352159991 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.33216628652616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.485199948654315 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.60913763802217 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.99083765624551 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67628055426527 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.28464158329408 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.02732951971231 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.92251191755488 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.27602738154129 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69006507044627 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.95410265101962 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.93574792089833 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.22715437195185 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.94877638965824 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.31860561889960 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70561726648495 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.98476648791730 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66093612848095 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.27052555832902 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.01562052446250 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94042012250993 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.35055511234761 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71319606895426 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.00458899279420 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.92409796840886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.25503565879291 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.01286926804967 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.32507657053562 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69780704655641 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.98247451634916 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64906114682093 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.25855802883187 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.00596964042706 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95848856776679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.37825725485980 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72741372489172 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02494392534114 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.90603712026429 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.26690493677910 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.05598580638920 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.38340418980810 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70076337846714 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.98816923440108 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.64105884378662 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24938209971528 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97552376192415 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.39158261200611 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73788589140794 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.03637389748496 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.89116071830704 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.28276739342321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.10006196148022 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.43212622185547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70316969694938 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.99587518943672 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.63515721260308 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.24232942059858 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.99160445492671 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.39726572597369 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74680761598883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04557717573838 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.87756161748029 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.30279642327341 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.14613979599225 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.48217499477451 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70626126377196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.00537387619148 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.63108316246463 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23701188942452 at nshe,nfasti = 10 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.00682354373715 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.40047914871871 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75496019760487 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.05587588688487 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.87052492494585 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.32738178223275 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.19470918303427 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.53225310450356 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71049688370275 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.01592003557002 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.62831957052218 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.23310259331141 at nshe,nfasti = 10 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.659E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.453E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.371367574822048 Pqlo = -6.942320869855625E-002 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.79411644733505 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.69313196780052 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.79578124225139 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.51972929982837 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.43543854791069 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.81730862157242 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.463645072428400 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64441917290122 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.22592198821311 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83638681826283 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41139212208297 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11325192071739 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.10829764246011 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.71618534875412 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.64032653522576 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.47920621798132 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.44103546252819 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.82925064446335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.465238156750090 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66262574424227 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.22194802990878 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83244050124965 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41099982383247 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11230994958760 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.11367697792078 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.31546404446753 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.45969194475881 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.41877378402468 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.45424348921934 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.85060322747803 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.467118013266848 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68337585820232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.22853278035428 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83294770126880 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41071007796322 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11094006420414 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.11135666098303 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.13785922391537 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.34590690234476 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.39376735508999 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.47740024581817 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.87454107418772 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.469999699347120 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71163624813876 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.23587733978608 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83371913586996 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41039229129014 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10976203557097 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.11353937319964 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.04534234983330 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.27680743118214 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.39338709561879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.51259140913031 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.90082128572794 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.473212498152707 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74317343282241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.24412923572869 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83481630057704 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41027624352551 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10882404356290 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.11992504785939 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.99411933373378 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.23549936538471 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.40809481075631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.55674778852415 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.93037318992590 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476292003908720 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77470126151433 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.25331058590769 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83617168121274 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41040638664516 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10813075181988 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12824239536556 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.96542253610221 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.21253808142170 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.43337305442785 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.60690174417082 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.96329776709322 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478990328865571 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80428326310018 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.26335213212714 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83783807357811 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41077943426316 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10767151302363 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13747248089419 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.95054796072914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.20271501374829 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.46580814888058 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.66092903751868 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.99927335427737 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481175868732143 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83080834624855 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.27399143315391 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.83984219773974 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41137817308283 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10742659730008 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.14706535207362 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.94456381411935 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.20228116185998 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.50255997621840 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.71692730498424 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.03711475996629 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482830094286408 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85391527800480 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.28512723313743 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.84214257083558 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41217749258172 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10737360211006 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.15669499827994 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.94468137842782 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.20861839665098 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.54190569291467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.77360008061554 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.07653517623105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.483943405043580 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87339440885658 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.29668412093290 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.84468809430956 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41314867411686 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10748917293145 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.16617200669657 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.94905994571089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.21998106677253 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.58290187219392 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.82983256852028 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.11697941781490 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484561457655346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88940399315422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.30852586387213 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.84742092578438 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41426222423960 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10775001296752 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.17538140033734 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.95635501744995 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.23492303427226 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.62484106773055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.88474813413394 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.15805724166896 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484747451814173 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90222768376297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.32044275424561 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.85028872111721 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41548939137360 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10813350705100 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18432011343533 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.96578413067553 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.25227717213065 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.66720335891824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.93849204056452 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.19957345427718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484557449846263 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91216008222749 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.33236043192268 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.85325349515739 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41680277829702 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10861824317992 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.19289854735120 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.97665939434492 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.27162539305956 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.70863719538162 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 7.99065995866670 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.24106318024121 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484045213933259 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91950139100651 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.34412555780583 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.85627536323717 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41817733151810 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10918455669008 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20108504340854 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.98851605762229 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.29253351434637 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.74894604491255 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.04110872635547 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.28228200784820 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.483263300933397 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92453901572968 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.35571754263494 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.85931695486555 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.41959118397180 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.10981510178088 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20887511022709 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.00103795381572 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.31458284800326 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.78857260728124 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.08966840060298 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.32304280693813 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482261159349919 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92743421351204 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.36707394182091 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.86234796471986 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42102592160169 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11049464099436 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21628151049263 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.01397735070972 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.33745605710255 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.82727129054154 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.13622339996037 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.36314066790475 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481077783976791 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92858707698593 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.37814880254907 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.86534865706671 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42246610769431 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11121006509781 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22323094290110 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.02716030192038 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.36086557114757 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.86466109353178 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.18072784198043 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.40242046466049 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479751124375936 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92806704463328 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.38892122176037 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.86830089353662 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42389863413628 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11194993339164 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22979279451553 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.04046979477173 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.38456081040669 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.90094064881123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.22319244829466 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.44077368761452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478308054963381 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92608548016382 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.39934207313396 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.87118885230618 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42531271836746 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11270447664063 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23601477382427 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.05391033068159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.40836324194874 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.93614897976531 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.26363416516866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.47812831499940 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476771285483416 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92298582596297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.40936659534969 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.87400140505131 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42669979158536 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11346553758040 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24191232170620 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.06734811513621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.43220468269344 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 7.97026529985986 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.30208386378567 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.51423464295080 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.475157403445157 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91885515133566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.41902691227349 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.87672724873868 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42805356301676 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11422653071082 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24750002766058 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.08067516450628 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.45592304890478 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.00324202498813 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.33856770997943 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.54911041223626 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.473484445768702 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91374576109840 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.42832893798669 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.87936516491082 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.42936965144488 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11498210062717 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25279143011385 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.09383485256605 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.47942415783497 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.03503137546917 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.37313921028642 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.58285588616519 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.471772476272945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90798622188896 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.43726983503771 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.88191272920633 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43064468925713 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11572810726253 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25780281790460 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.10677644770745 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.50263474512819 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.06563880513364 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.40587495836349 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.61533454290453 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.470040181802012 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90167601453248 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.44583681964142 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.88436260146808 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43187544100910 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11646072992958 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26257940666172 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.11946474994243 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.52548454098245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.09506194178673 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.43683858543854 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.64651280786368 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.468299857148215 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89486075207027 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.45403827094333 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.88671576906556 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43306019530720 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11717716339360 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26711300139296 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.13187613667633 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.54791086767380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.12330764119463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.46610453879640 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.67656099797096 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.466565186589590 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88740455099138 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.46188265130255 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.88897162274628 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43419788487148 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11787507661088 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27141016955694 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.14399608485034 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.56986811389671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.15038194463082 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.49373591855228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.70547633516589 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.464844741543250 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87969033884304 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.46937833601160 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.89113157571937 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43528846087550 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11855299816607 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27548354444293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.15582652923470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.59133043862095 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.17633456857911 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.51984010483478 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.73334772860942 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.463145507318522 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87163510488589 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.47652981162647 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.89319651497922 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43633233223940 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11920987205822 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27934681827827 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.16742536082827 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.61227991876112 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.20117803896601 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.54448025989805 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.76014158083499 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.461459829047064 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86342768518850 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.48334826681267 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.89516909298882 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43732974917494 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.11984474342028 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28301052367242 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.17875907424516 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.63270380800396 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.22493668290647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.56773870162822 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.78584138771957 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.459802555980380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85515909853978 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.48985014495463 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.89705111973523 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43828123594551 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12045696273783 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28648445936875 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.18981368062483 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.65255673013656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.24764227658401 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.58972085376012 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.81045122686412 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.458183502548987 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84685987535440 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.49604598565046 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.89884474654902 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.43918765339484 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12104616399594 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28977873224100 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.20055201542226 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.67182691473280 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.26932862096657 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.61050076943701 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.83403159384240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.456605308610440 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83845058547819 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.50195025614270 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.90055294819837 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44004994124253 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12161222668662 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29290399762985 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.21096767834603 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.69052757625456 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.29003017792311 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.63008937863475 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.85661732996504 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.455068648955233 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83004095581414 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.50757294567424 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.90217807093216 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44086964837219 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12215529305103 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29586943113258 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.22105897530713 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.70865254627491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.30978137400513 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.64854599155413 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.87824220037694 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.453575348987571 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82173469678201 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.51292257954342 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.90372320176153 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44164826080563 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12267567626965 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29868432797263 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.23082345183933 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.72617845720939 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.32860527672578 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.66592720709328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.89892583628554 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.452126998439007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81356034527038 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.51801307995048 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.90519171566486 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44238739396110 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12317384342188 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30135758241709 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.24026309043462 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.74309702509302 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.34652464550691 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.68228607823413 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.91869773757283 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.450724702680931 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80554265644674 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.52285535208756 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.90658640312800 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.44308870840880 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.12365035907193 at nshe,nfasti = 11 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.659E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.453E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.40631778593461 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.33389092898799 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.18070350077477 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.02356441387470 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.50142767840582 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.84646305366507 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.471870168651692 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95743119453126 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.53127922697131 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.94731985005566 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48784608583498 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16136030760070 at nshe,nfasti = 11 5 %fp_imp warning: RF renorm adjust = 9.27205714055347 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23770888952231 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.87199677285916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17755769200634 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11452303362159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.44294458022688 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.26488440240800 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.66587233235783 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.85766500635259 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480288164331268 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.02873479672726 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.52910070839571 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.94864148600782 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.48945302140427 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16244476882853 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21540061419713 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.02368243599204 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.51839951240433 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.43794528571302 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.62463468007551 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.39384689816766 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.77250597747650 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.88467186850742 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482177341854395 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.05370475151939 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.53549491254520 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.94997832041676 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49019974286361 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16303345061971 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21224989588531 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.46228873318913 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63166008286943 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.63229315765465 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.76903234073683 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.49030295496126 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.85054585929925 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.92018611756670 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480975968804879 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.05416601938912 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.54393701318402 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.95158577818397 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49083932356115 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16350693272333 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21255895852278 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.65368096507832 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67675694359564 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.75376336255381 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.87750162928009 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.56447544807402 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.90900726277638 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.95910561146728 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478347471824923 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.04198901517346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.55322459381989 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.95346581329504 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49155342202919 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16397514187119 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21211988749489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.75064339491623 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69893686238070 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.83107184157748 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.95752010293624 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.62151775877587 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.95242028351033 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 7.99685445164217 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.475262709426240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.02442327597955 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.56235262969373 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.95547606103871 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49235321831849 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16446631020043 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21123540195986 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.80693886616565 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71190113587338 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.88330764683176 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.01769819444409 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.66577713928266 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 8.98485507328176 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.03112821981383 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.472212016610892 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.00560311808878 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.57076669463988 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.95746919208870 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49319872312736 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16497481788754 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21032123088607 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.84405223135216 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72043400043496 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.92024799970230 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.06463720465811 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.70117568435659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.00999805842300 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.06137013348672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.469368304588966 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.98726544088688 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.57773533206474 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.95930580996963 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49403129328747 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16548398689923 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20956797247981 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.87100570442633 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72657482107193 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.94816433843879 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.10232968783057 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.72959783362260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.02946342044088 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.08765690257001 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.466749601583369 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.96978309253225 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.58425220328688 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96108322198200 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49485155201864 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16598454683343 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20896288138151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.89171053096443 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73127118790035 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.97021896099980 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.13349233583367 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.75299963245466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.04477441726878 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.11040648231730 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.464380406399285 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95366704146938 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.58995776665233 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96269480523867 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49563307175822 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16646663202416 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20849269957854 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.90844937811155 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73503448927398 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.98830645136879 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.15986790590565 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.77262167876268 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.05707621480171 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.13015129736490 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.462247235431232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93898492079789 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59495285856575 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96415691586502 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49636611111109 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16692420977923 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20813246121382 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.92247108695115 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73816130513109 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.00357099468768 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.18262027376763 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.78932228094676 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.06715057784658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.14737518001210 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.460326910481916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92565309624063 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59933382484473 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96548078095494 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49704768914107 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16735475707813 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20785792645018 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.93452213823877 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74083419264636 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.01674322949150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.20255173592548 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.80374078421163 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.07554104860228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.16247902146116 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.458596034502353 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91355793761754 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60318847375754 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96667868011455 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49767801139915 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16775761662526 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20765037185288 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.94507050941233 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74316562051603 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.02829311826600 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.22022175329873 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.81632213581448 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.08262200785766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.17579133779591 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.457030978325069 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90253105609807 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60659441068605 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96776323929000 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49825907387106 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16813321327946 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20749450630549 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.95442679607457 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74522883344983 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.03854752746341 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.23602573158622 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.82739666242792 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.08865457900129 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.18758444021215 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.455610249192772 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89239873788464 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60961781805139 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96874594382278 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49879356424634 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16848256255558 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20737820891516 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.96282032180941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74707384511758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.04774422194724 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.25022093249995 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.83723209978129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.09381646160430 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.19808267661834 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.454320292681838 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88315650699925 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61231446017172 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.96963779988115 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49928465260273 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16880703427200 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20729270261929 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.97041651684369 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.74874085045778 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.05606534182788 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.26284031093664 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.84601428954172 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.09826250329128 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.20745920291806 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.453145352161457 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87470544343842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61472930704238 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97044842944722 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.49973550366291 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16910811213317 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20723149385571 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.97734167497367 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75026009110558 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.06364320670784 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.27428258056452 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.85390116465814 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.10210975462335 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.21585995291817 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.452073805930490 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86696761900801 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61689827699931 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97118621327221 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50014910460934 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16938730654975 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20718932196680 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.98368789891350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75165379241853 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.07057964174205 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.28475367686883 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.86101690105883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.10545822157887 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.22341376794047 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.451093479655396 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85986314268090 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61885067291544 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97185820633447 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50052837858591 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16964611454335 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20716228862101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.98952413190953 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75293811780513 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.07695446117649 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.29436970590826 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.86746199701948 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.10838219247744 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.23022810857827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.450193185087068 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85331600609112 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62061231092065 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97247020645214 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50087605549281 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.16988592365927 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20714756723264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.99490935511411 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75412659082236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.08283297246312 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.30322516634444 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.87331256574369 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11093655463904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.23639321439258 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.449364118174984 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84726578139918 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62220640118566 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97302829719341 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50119461642421 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17010814313594 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20714301228923 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.99989650847940 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75523103189543 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.08827119990910 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.31138890337319 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.87862984984409 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11316589939141 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.24198387670810 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.448598793288251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84166097640956 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62365279245033 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97353773962327 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50148644638547 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17031410901657 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20714651477848 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.00452606649005 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75626048646292 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.09331487880540 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.31893933844293 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.88347196341681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11510912284328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.24706410451241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.447891087918584 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83645957889071 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62496182983071 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97400313260792 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50175375708344 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17050504977493 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20715667541356 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.00883295258034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75722256677720 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.09800288426559 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.32593710492471 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.88788873788881 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11680119159971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.25168803464025 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.447235571898569 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83162429784733 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62615406003571 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97442854753269 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50199859134081 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17068211775299 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20717206636987 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.01284624429873 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75812351135129 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.10236815119711 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.33243317771677 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.89192203732445 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11827108454180 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.25590298387278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.446627506744446 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82712251112147 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62723798883900 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97481766123632 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50222284597655 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17084639384337 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20719164157679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.01659192880491 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75896884950931 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.10643938123722 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.33847215533619 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.89560808089198 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.11954423205052 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.25975016183031 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.446062703201375 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82292562758916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62822604460918 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97517377770524 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50242827353124 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17099888393139 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20721503078521 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.02009597083596 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75976397933136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.11024115932767 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.34409662577917 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.89898728384852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12064122261853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.26326734886100 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.445537203087524 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81900630765441 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62912891458996 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97549994991572 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50261651222380 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17114053133666 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20724116168211 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.02337692083003 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76051138744352 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.11379854795585 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.34933995462682 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.90208091074837 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12158369292750 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.26648641335768 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.445048896684216 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81535046830956 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.62995463069582 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97579886555692 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50278904411239 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17127219786570 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20726905840515 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.02645590139648 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76121457276563 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.11713461860735 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.35423537232949 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.90492962404871 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12238348679065 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.26943748460430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444594730355513 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81193803257692 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63070994928000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97607281612744 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50294715942121 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17139464607655 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20729868261038 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.02934307388782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76187664179948 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.12026130666500 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.35880574150544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.90754270600559 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12306266492195 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.27214042489602 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.444171427102190 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80874570165640 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63140152544629 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97632403839978 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50309213257628 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17150860822105 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20732978547381 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.03205308278293 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76250211275345 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.12319409991914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.36307540030043 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.90994198877142 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12362386026406 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.27461942579454 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443776537608442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80575606929527 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63203551292837 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97655454245055 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50322508328417 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17161475341835 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20736213270289 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.03459845244113 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76309353254731 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.12594658394109 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.36706657457435 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.91214424814797 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12408821780252 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.27689466538751 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443407789984171 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80295342394585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63261723013495 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97676619085832 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50334706780928 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17171370342493 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20739523910814 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.03698989211427 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76365304317543 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.12853109171816 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.37080037760880 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.91416628409286 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12447297195944 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.27898458304576 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.443063064113915 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80032349557661 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63315148402744 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97696066741703 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50345905036088 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17180602527671 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20742878738628 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.03923783873716 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76418266444399 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.13095938851990 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.37429588095421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.91602426186179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12478478328283 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.28090604584493 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.442740519821355 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79785355269278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63364263031843 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97713950405319 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50356195506426 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17189224474032 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20746254485158 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.04135173598054 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76468422638808 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.13324196292986 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.37757013256736 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.91773250838601 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12503155129700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.28267392525573 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.442438500277196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79553196401406 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63409446573523 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97730406591399 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50365654987356 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17197283252569 at nshe,nfasti = 11 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20749630120629 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 7.04334009157200 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76515937740768 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.13538808695373 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.38063764962192 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 8.91930555185552 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.12522043538463 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 8.28430136618514 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.442155504140835 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79334819659209 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63451036814893 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.97745557067393 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.50374353595920 at nshe,nfasti = 10 5 %fp_imp warning: RF renorm adjust = 2.17204820826404 at nshe,nfasti = 11 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.694E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.517E+03 keV on shell 2. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 26587 TA= 5.30000E+01 CPU TIME= 8.12474E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.0133966666667 %check_save_state: izleft hours = 62.9072222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.300000E+01 NSTEP= 26587 Hash code: 66049097 ->PRGCHK: bdy curvature ratio at t= 5.4000E+01 seconds is: 1.2643E-01 % MHDEQ: TG1= 53.000000 ; TG2= 54.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8220E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2643E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 53.000000 TO TG2= 54.000000 @ NSTEP 26587 GFRAME TG2 MOMENTS CHECKSUM: 8.1674805560903D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -5.18005E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 2.67964E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -2.59019E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.67964E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -2.58985E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -5.16544E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 2.67208E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -2.58289E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 2.67208E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -2.58255E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.76687899999524 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 5 )= 4.23897389710283 q( 4 )= 5.82467826499057 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9131E+00 8.4317E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.04871378260641 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98268869692912 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.27022985011075 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.33548244512586 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.34784177988969 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.07463327379359 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.79218786164633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.30066710894146 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16473172124923 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 2.00938543721433 at nshe,nfasti = 10 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12765 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.32305850456404 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76354845447739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40212187602601 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71099328289802 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88138570437672 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17853342830777 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.480324564947414 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23408683740204 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.79916188579218 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.59481030106070 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.95915906463923 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33296024221286 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.07441228379023 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14073730893907 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.392764751737834 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.75646005498885 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.32350652526752 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.83605754406083 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.65693775899543 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.04611909091852 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.37585070908864 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.30293108273405 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16510816746273 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.388395713919824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.497912988976519 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.87027514942187 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11968224959524 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.91136977287425 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.68554682070582 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.13836607984663 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44488454822045 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.47099317474001 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08564547349787 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.371399546545179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.96398310096767 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.40512860070840 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.00837380460259 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.71667850617458 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.16298712094321 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45916520114196 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60317116303740 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09330065402896 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.369409001164063 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.02280361754316 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14762960639060 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.05912921656592 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.72539022935380 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.22315507152614 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50440960537747 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.68484549593459 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.01757245134509 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.355982623769859 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.06565901279531 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.42734985612921 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.11184314746008 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74172008781982 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.21982382273552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49700571172465 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.74611488501760 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.03371388524296 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.357348713334651 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.08135281019520 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15678639042616 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.14073846789537 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73395284665447 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.26157795673782 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52878879114181 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.77560971825055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.361412979930708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.09592411955241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.43070988603440 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.17077189865100 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74404267962772 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.24548386671796 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51152135729723 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.79580576472210 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.352669780164251 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.09382039397243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15864828146579 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.17289390686941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73782396618623 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.27706895144227 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53697865863850 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.80369110137242 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.371070025398714 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.09671705018521 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.42807432743347 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.19198481393255 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74550427929857 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25562787673928 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51562949271809 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.80453291260631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.360482581806385 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.08846862261499 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15791605440144 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18559424286847 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73767392124708 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.28284514302202 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53842635719686 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.80222746421153 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.377446169698469 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.08748165672328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.42411171502554 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.19922519024798 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74442931743145 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25862941989021 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51544711416758 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.79835715031504 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.365627571856354 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.07760577656024 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15645699063502 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18895782750026 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73609559938580 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.28391012607368 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53722196801120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.79264495410803 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.381620561269463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.07587908341832 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.42035667307784 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.20036024573162 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74262390671260 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25860674730470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51377806857411 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.78798331768645 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.369019291290708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.06653620638471 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15496022845060 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18837460238153 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73424851966870 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.28302964028601 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53522989216603 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.78155544605253 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.384355141249009 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.06521466716865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41725625589638 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.19901194954088 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74084412467566 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25739884297308 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51178184917952 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.77740481053477 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.371245492123011 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.05688240415575 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15365112000216 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18639706488739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73259478544189 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.28150363790025 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53318458827275 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.77131519570277 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.386140292750053 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.05635707723099 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41484509920343 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.19691003815532 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73935160610126 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25588689392914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50991399760097 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.76822223844141 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.372698849416018 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.04910640063534 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15259322692223 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18416195623499 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73127053541183 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.27991529633365 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53138732379552 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.76277429063125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.387290577800891 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.04938094752854 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41302900401489 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.19482335879547 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73821517321454 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.25443853165108 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50832397652333 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.76073609547572 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.373635669771605 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.04309359177982 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15177295902340 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.756E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.562E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.163E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.18213404338984 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.73028598837881 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.27849878729575 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52989799467710 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.75605411217760 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.388024676776064 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.04405085944139 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41169289804194 at nshe,nfasti = 7 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.573E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.548E+03 keV on shell 3. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.512E+03 keV on shell 4. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 27087 TA= 5.40000E+01 CPU TIME= 8.07198E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.3434325000001 %check_save_state: izleft hours = 62.5772222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.144E+03 MB. --> plasma_hash("gframe"): TA= 5.400000E+01 NSTEP= 27087 Hash code: 20731135 ->PRGCHK: bdy curvature ratio at t= 5.5000E+01 seconds is: 1.3147E-01 % MHDEQ: TG1= 54.000000 ; TG2= 55.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8900E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3147E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 54.000000 TO TG2= 55.000000 @ NSTEP 27087 GFRAME TG2 MOMENTS CHECKSUM: 8.1803318194709D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -3.80151E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 1.97878E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -1.90077E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 1.97877E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -1.90073E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -3.79130E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 1.97346E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -1.89567E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 1.97346E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -1.89563E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.853E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.314E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.326E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.84045599999808 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.46168826022121 q( 3 )= 7.46745974521841 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9131E+00 8.4332E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.73210654951197 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22697432179086 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88494032127506 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -6.75298694759686 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -12.5162489914470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -48.4215073806363 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -277.981556348958 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -11.0075443216000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -29.2266456779174 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 40.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = -1510.69549989261 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.00083418254228 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.63804965499489 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.36506981305675 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.389121216159232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58476786513339 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.19026616408881 at nshe,nfasti = 9 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12731 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.853E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.314E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.79660733213242 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.10212595578054 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.51211771119378 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.28911583803368 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.487529289156495 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19591923791103 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.47464112723568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.89698511388971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50890118830792 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.464367921484311 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.98737923550270 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.09278598075627 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.01933530466523 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.90433688407984 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.46149801665197 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -45.9630569531299 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80820591564310 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23560059809788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.83112511134652 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.74267733947492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.32485764856538 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85927353290492 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.00504848773542 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12091973510861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.85371775323673 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.28379418504355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -93.9291769686495 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72651622201250 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23390597133907 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.55289255676055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.63146767249864 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.25818022597264 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79899125626741 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.11022378469807 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.83268764634264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17073181392081 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -215.882008038677 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66633988922300 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10988543994710 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.37497241692576 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.54664461023182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.21379322114348 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75885770317154 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.08701148548474 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.82770399690264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.09199543315233 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -907951.018310450 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 20.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.62004947350119 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00648892848476 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.24798855188604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.47996277319012 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.18006970256535 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72886651139951 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.05603445049382 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.82931027223820 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.03409553931395 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.445714308994025 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.92920300187035 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.495892948928796 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.15244762524634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.42712786766275 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.15374731768219 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70534508077536 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.853E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.314E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.81358483023006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.72571738641365 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.07750764756520 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.482817109730385 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.20832206692251 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13214820621846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.345130879545059 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.56738378822944 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.72573310370060 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.37133524723369 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88033604543788 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06298904183668 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.97423209235550 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.75165209447228 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.01533688827803 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30357214743897 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.379413591303509 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.47826463588457 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.69209270423349 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.33571330013503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86611797564005 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.05028859614748 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.93178243392694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.76576739195924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.97261746278118 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25057310744521 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.384832162561810 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.41022879815835 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.65868679400217 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.31620858758863 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85230029443098 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.04086271132172 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.90253200846099 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.77528994712908 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.94355023295059 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.22856116823498 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.390534506655327 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.36489544308671 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.63491569892616 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.30385592347634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84106160883399 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.03325419044283 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.85682727773453 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.78362893132255 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.92417353704569 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.21271474810515 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.392850175636312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.33342741981796 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.61847584701040 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29629400153943 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83264586229433 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.02727282615042 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.84787727823571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.79233259003974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.91062637008853 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.20161161786440 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.395214368046891 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.31177547905777 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.60748092503279 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29213451043422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82664503162013 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.02259181624876 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.84434993557242 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.80105854933040 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90164913347218 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.19444748192267 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.396423237505614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.29725187115934 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.60064758593239 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29060230296199 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82263891376681 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01899214333972 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.84506592781955 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.80976372387974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89633415525991 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.19053365269682 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.397272455936455 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.28820518574527 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.59699741164973 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29104338062352 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82023811052917 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01627499894880 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.84874618768696 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.81837562907865 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89362062274533 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18935813300888 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.397601527379545 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.28341702441030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.59576306793381 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29291165709218 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81914444807496 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01429381428940 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.85332865191363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.82683926661927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89290239486580 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18994225919020 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.397675175666712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.28188509685029 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.59624355637442 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29586002015255 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81908639337250 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01288891579327 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.87010147412879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.83619440572028 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89370382433046 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.19204750203455 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.397429149879153 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.28298926772936 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.59812940710186 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.29957549852037 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81984993941456 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.01194334759962 at nshe,nfasti = 9 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.853E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.314E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.81225744052021 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.81057445243696 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88136491030301 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27247674704071 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.332933663811124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.51784640963584 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.75265259088296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41212082010449 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.498986807938707 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89428326105999 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07074885491296 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.91322120816700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.82969879331233 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.85811225654965 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.22105234146428 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.374771702176773 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.51623307521044 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.76258846180558 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.40849816779840 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.499982737088422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89321696210193 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06923289436817 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.87024873077675 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.83386426752738 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.85226558824584 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.23000228733687 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355462484545516 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.51212105423631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.76522638227232 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41141606124530 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.499539482924872 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89461946317476 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06867333010435 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.89105760788303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.84301790789762 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.85275648524999 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.23027213283203 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.364949086935841 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.51858224318408 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.76910599594591 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41502795632487 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.498917201931142 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89640948413379 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06843865919846 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.89140234264132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.84980637345917 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.85574427546037 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.23664964378132 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.359754622388399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.52438287431543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.77358664557825 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.41961356958983 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.498008437523923 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89872658127584 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06844538025795 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.90322304983211 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.85664307538485 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.86036977658122 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24195830809574 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.361450309466938 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.53269444414361 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.77870323934226 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.42431683305503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.497013416040346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90129339250551 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06860286901981 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.90858104187941 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.86280162816656 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.86576118819562 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24888602220883 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.359602043875001 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.54097533533699 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.78401533975621 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.42916894157620 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.495941614785644 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90411800494282 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06895321564335 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.92128769880230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.86944066747268 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.87163544826513 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25571603700610 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.359399691758347 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.54999568966280 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.78954217506751 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.43402567804129 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.494831951797894 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90702365416524 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06930477910421 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.93171340709801 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.87580111779915 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.87781330792005 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26295424627859 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.358313884709101 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.55905659401030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.79512164624607 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.43889195184594 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.493695270664585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91000459139734 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.06972394147527 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.94316504749140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.88204868153394 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88420808539234 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27012789223948 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.357649851998133 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.56825629914681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.80069111590512 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.44369375179286 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.492558797718410 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91301014045407 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07018790616978 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.95435874439805 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.88801567064210 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89071865582172 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27724864970319 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356773939932690 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.57728241576896 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.80618522188093 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.44840673147702 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.491430586053738 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91601152337654 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07068222238190 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.96539037610130 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.89376613725213 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89726292175441 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28421936018160 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356015545005458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.58617061734343 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.81156720377868 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.45299924427182 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.490323378950305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91898246237558 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07119496360395 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.97622490769177 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.89929519601603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90379004073466 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29110432667020 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355214878413516 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.59485673358524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.81680153875627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.45745578470388 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.489244385583169 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92190212241153 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07171705376546 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.98683129751328 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.90460955134792 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.91025144670587 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29782054337652 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354460374803674 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60330701185571 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.82186726672595 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.46176425720685 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.488198903943954 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92475899134148 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07224099974923 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 5.99714509230297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.90971402576658 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.91662013621674 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30435514657628 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353709169998474 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61148755019927 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.82674650243841 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.46591735306103 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.487189608429829 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92754315476143 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07276138070411 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.00714981426275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.91461969653431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.92287400341282 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.31067162538554 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352984440994905 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61937250311879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.83142947289455 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.46990731586301 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.486219899520982 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93024309855080 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07327335150871 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.01683175422599 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.91933260928927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.92899584094006 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.31677452031677 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352282780640444 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62695252022671 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.83591467985072 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.47373153257485 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.485291287449444 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93285350377536 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07377344678619 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.02615919502179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.92385982467419 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.93497139638362 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32266157279277 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.351610260479907 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63421660347071 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84019901203962 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.47739119632541 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.484402837472383 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93537096784878 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07425883879434 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.03513066924944 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.92820516678028 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.94078975933255 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32831848645936 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.350962946444862 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64116058083097 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84428252970325 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.48088888534523 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.483555784071529 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93779387914991 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07472760480197 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.04380436923244 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.93237582444423 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.94645744273778 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33374340384374 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.350343384053083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64778437841134 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84816705389740 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.48421525371452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482749552956479 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94012160218806 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07517814631983 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.05216508325100 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.93637892340071 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.95194972794352 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33893990942368 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.349750121916114 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65409272395315 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85185621766369 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.48737908364260 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481981964395940 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94235345877477 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07560941710322 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.06018495620735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94021900810927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.95726390266578 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.34391830112726 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.349183426310046 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.66006808391626 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85535766312430 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49039286131632 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481253827774918 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94449119355632 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07602127872307 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.06751944139018 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94388359240689 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.96238913867505 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.34867432897520 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.348642335225921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.66573767763586 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85867730992200 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49326200609916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480564334487487 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94653739473096 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07641385159400 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.07459072059898 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94735412373328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.96735086274181 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.35321894221951 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.348125425112061 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.67112494777808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86182302995008 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49599343215914 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479910795995634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94849497077777 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07678737265974 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.08181426354597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95074196357915 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.97213736534878 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.35754309355600 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.347633552193803 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.67623334369896 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86480042033847 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49859219377077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479292061346568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95036526838423 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07714199764494 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.08845585071025 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95399299737736 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.97675445403526 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36166482677350 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.347164891948104 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.68107284365117 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86761703890793 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50106012799933 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478706102016254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95215012037852 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07747824802696 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.09509708299067 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95712487220929 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.98119693708160 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36558192261440 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.346719560756892 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.68565430515819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.87028013408569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50340416412410 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478152442966325 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95385279930792 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07779676137445 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10127527903924 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96012288201031 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.98548483231330 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36930583740386 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.346300837470075 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.68998613163881 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.87279830467430 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50563159589042 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477629582392551 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95547602817114 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07809832377623 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10719408077976 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96300361116464 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.98963809126298 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.37285046422704 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.345904209045998 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.69407985910185 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.87517606851426 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50774896799384 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477135989097377 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95702734082626 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07838368989942 at nshe,nfasti = 9 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.853E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.314E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.05999988344970 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.93592159391139 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76425003952557 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.20952504966196 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.362226683916015 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60835057966465 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.83111393094719 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.48759394321263 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.485436208319662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93102656097890 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07830884817381 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.06234058070760 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94032851286037 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.74708518479621 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.23766788546988 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355328146233024 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60472296604480 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.83761059867204 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49545034285150 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.483355302029625 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92642025136501 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07734030990746 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.07416568968978 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94184564728295 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.74870393795542 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.23829330086997 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.358437118123338 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.60862431945167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84020615343272 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49742424769947 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482988217146128 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92690552749983 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07711063114153 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.07564767733369 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94313020710980 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.75150773463879 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24233193258473 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356352917154112 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61152194800051 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84234547802665 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.49933737332611 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482555018523743 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92792884173065 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07707784900565 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.08159752610952 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94493977472073 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.75437438683412 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24466328496282 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356988359074040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61468353485450 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84425318868521 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50100608919869 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.482158131012621 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92900884719969 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07712132049163 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.08527471448179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94668090472694 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.75712486790930 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24737274662010 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356233085824313 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61741915329945 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84593621459083 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50254467047131 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481785152937280 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93006233655776 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07720012362925 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.08972134465501 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94847207709633 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.75972777699011 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24966894492971 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.356209360050998 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62010053374046 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84748048072234 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50395569540526 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481441618973673 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93105437982123 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07729349331018 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.09337675748666 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95018111768839 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76219451147199 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25198849365648 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355823567786775 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62255800350627 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.84890250136530 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50527642681339 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.481121114014226 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93199008231195 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07739482284192 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.09709437595118 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95184732887872 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76453352595209 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25412106600956 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355642235054885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62489619187748 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85023416684834 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50651527249912 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480821364950690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93287092824974 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07750001812013 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10046956913726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95343843618137 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76674730091592 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25618056944846 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355373394732017 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62707635090538 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85148423452331 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50768678075240 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480541070675093 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93370403912551 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07760759065023 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10373246869946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95496696988982 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76885041924902 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25811231723240 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.355168082825506 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.62913238144568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85266629257285 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50879816894745 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480278507343774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93449362012822 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07771630631868 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10678171205822 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95642633717507 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77084851212319 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.25994875244496 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354948051914082 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63105932250957 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85378633152408 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.50985637360253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.480031726981848 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93524405193470 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07782541817978 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.10968448529130 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95782216202942 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77274731413778 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26167545673764 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354753222664784 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63287092746557 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85484871413862 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51086464477860 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479799698238352 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93595792003625 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07793413843219 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.11241798298517 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.95915491301558 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77455217440112 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26330805708209 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354562192524764 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63457029591639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85585553114618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51182647925111 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479581112649937 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93663813112394 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07804178869058 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.11500558110886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96042843832965 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77626374051066 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26484609736156 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354385084225007 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63616517580691 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85681082000079 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51274413189038 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479375295549100 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93728675155673 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07814769711945 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.11744547782684 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96164507115762 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77789024601454 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26629478717908 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354216490299945 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63765893433454 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85771565149439 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51361915076485 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.479181585589908 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93790536157873 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07825127136645 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.11974902809339 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96280795210494 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77943791237149 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26765832092794 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.354058131838206 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.63905773347427 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85857205257555 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51445328850748 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478999482068882 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93849540972775 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07835199470185 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12192021676011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96391971716802 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78091048576662 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26894004432849 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353908975038101 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64036572145106 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.85938126567545 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51524789019835 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478828446494957 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93905808085987 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07844943723448 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12396615206173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96498308311346 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78231198726110 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27014325781616 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353768768588473 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64158737780591 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86014463114490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51600427040299 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478667966599842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93959446634449 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07854325670638 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12589328765750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96600063120013 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78364620696653 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27127396222940 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353636976607813 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64272691018123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86086351376157 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51672370794236 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478517550794662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94010558105331 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07863319492523 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12770847877857 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96697485779752 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78491673095766 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27233447064774 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353513222319087 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64378849919973 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86153937994981 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51740748009735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478376717196657 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94059239029044 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07871907548774 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.12941763517287 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96790801654573 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78612686909865 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27333031710745 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353397108617334 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64477641662833 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86217383421404 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51805690595336 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478244727911299 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94105589890175 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07880078069160 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13102689193413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96880226985406 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78727982692230 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27426422226933 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353288206642578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64569474427388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86276859116629 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51867315389442 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478121412720753 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94149699488929 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07887825637727 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13254244326986 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96965963473432 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78837866851204 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27514070875741 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353186059478575 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64654753556547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86332534856548 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51925769947112 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.478006292756639 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94191658481002 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07895149741555 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13397160532181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97048215485299 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78943026708934 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27596310798808 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353090375228520 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64733885338352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86384594876790 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.51981198279632 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477898876885960 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94231560123105 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07902055552844 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13531899133757 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97127157047416 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79043633010963 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27673465348336 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.353000536802626 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64807244890680 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86433225681605 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52033741089718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477798626371022 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94269495823618 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07908551704494 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13658920178651 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97202941058320 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79139660840926 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27745833374615 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352916350179077 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64875208515293 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86478614067458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52083538903006 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477705176300345 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94305557399541 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07914651310156 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13778715908894 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97275720291329 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79231319278729 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27813720317162 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352837474733402 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64938129515321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86520941965781 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52130717442958 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477618133905323 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94339832518774 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07920368821418 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13891665291517 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97345630905805 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79318827610461 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27877236038886 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352763514114854 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.64996351345608 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86560393361008 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52175413116375 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477537094627788 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94372408859114 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07925720642983 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.13998261866330 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97412809786069 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79402403003396 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27936841111960 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352694144815632 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65050206193692 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86597146733322 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52217756400289 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477461677857875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94403371284123 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07930724113021 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14098926937712 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97477382111612 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79482244248806 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27992788302059 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352629114235396 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65100005307169 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86631379304467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52257874519701 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477391542796131 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94432797637730 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07935396542331 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14194026565997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97539460692036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79558542669300 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28045333911311 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352568052833834 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65146046602543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86663252921310 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52295886335004 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477326271611201 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94460765133450 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07939756220787 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14283944172798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97599157787668 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79631484539048 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28094719547199 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352510760092252 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65188615442686 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86692923748161 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52331904254143 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477265528979041 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94487351231362 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07943820301899 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14368996563511 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97656571702588 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79701236881939 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28141136364920 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352456942858362 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65227979106856 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86720546270359 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52366039388860 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477208991036279 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94512622798077 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07947605353150 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14449492630410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97711796144258 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79767959283887 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28184791495953 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352406373747643 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65264395972829 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86746265395370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52398396594786 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477156357536838 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94536655115363 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07951127906417 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14525725588696 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97764920761811 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79831803031381 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28225811069955 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352358809766117 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65298102120552 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86770220278170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52429081613389 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477107331370409 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94559516139413 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07954404770198 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14597969627645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97816030278342 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79892911450616 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28264416479362 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352314036500166 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65329317841253 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86792543394065 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52458193920668 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477061640028309 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94581270335865 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07957452289015 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14666478864231 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97865204615793 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79951417935971 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28300795399898 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352271870546672 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65358244843907 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86813358803881 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52485827321119 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.477019029616121 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94601979111555 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07960287061484 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14731482240562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97912518486784 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80007446676504 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28335097223226 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352232140280061 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65385067611849 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86832780973317 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52512070361811 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476979269592780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94621700484800 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07962924946800 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14793193594342 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.97958042927723 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80061113357563 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28367457104455 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352194710441309 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65409955627235 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86850918263210 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52537005757229 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476942145948040 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94640489617423 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07965381592491 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14851803587829 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98001844300440 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80112524762909 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28397998389885 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352159405322048 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65433059166368 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86867865989608 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52560712098980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476907458893245 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94658397723459 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07967671455981 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14907492375396 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98043986792149 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80161781876562 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28426834748903 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352126104753394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65454516028675 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86883716070977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52583261733216 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476875028764511 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94675473011427 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07969808384701 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.14960381435044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98084521453294 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80208976876079 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28454071789148 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352094667935617 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65474449230018 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86898550165742 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52604721581493 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476844693058634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94691760228892 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07971804758073 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.15010646590282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98123513819036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80254198472911 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28479803650354 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352064986893341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65492966873119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86912441589884 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52625153331427 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476816303222395 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94707301218302 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07973672234104 at nshe,nfasti = 9 5 %fp_imp warning: RF renorm adjust = 6.15058435669847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98161021912564 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80297533099684 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28504119379971 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.352036954823979 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.65510170223052 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.86925456436770 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 3.52644614072014 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 0.476789725267367 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94722134722633 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.07975420973815 at nshe,nfasti = 9 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.652E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 27587 TA= 5.50000E+01 CPU TIME= 8.07510E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.9963575000000 %check_save_state: izleft hours = 61.9241666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.500000E+01 NSTEP= 27587 Hash code: 32666073 ->PRGCHK: bdy curvature ratio at t= 5.6000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 55.000000 ; TG2= 56.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8250E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 55.000000 TO TG2= 56.000000 @ NSTEP 27587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -2.62256E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 1.38012E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -1.31127E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 1.38011E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -1.31129E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -2.62223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 1.37994E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -1.31110E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 1= 1.37994E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 1= -1.31113E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57255199999781 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.32393006626642 q( 3 )= 7.37900903348674 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9120E+00 8.4329E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 532.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 532.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.99678312754862 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18784164404721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15438658464464 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.37060031495637 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.35059626066954 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.73121842962754 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.61786244637639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.33262678456499 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13728915924392 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12729 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.564327355045411 Pqlo = -0.107183131665564 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35175049676245 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49395894408664 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22878992416627 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05884127348882 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.11341137512953 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20021733792135 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.25705667081420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.04407402393154 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02943967551728 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.568722389998856 Pqlo = -0.231455393117560 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50159090586207 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.36944935961738 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.30652443657725 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06051458511533 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03753836486587 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.28178603553506 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.14555739412503 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.11945259362459 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.39671642987464 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.33219747433050 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07803131732292 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05206525488906 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.569726920908252 Pqlo = -0.229663343681345 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40684946592890 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.47675831076751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34644709528039 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07824884232888 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05073521741380 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.30901514436043 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17914486852655 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.45343315985715 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35419449814291 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08619282262062 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05758558645125 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.570506210520780 Pqlo = -0.225882555332980 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09969828680532 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51725454594016 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35741246241513 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07981446120518 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05210895708156 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.32415657346585 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19418057720569 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.46628503453813 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35897295086888 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08524655095382 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05656491194325 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571001401814144 Pqlo = -0.222541745613390 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.05792525330736 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52221385528647 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35857353792896 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07755024407856 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05005356296557 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33080687016113 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20060406377607 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.46494990875934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35824643043015 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08247074182420 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05397729104340 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571303609986323 Pqlo = -0.220231792331329 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03748802209088 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51860904903034 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35682939785710 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07468245589599 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04743990036489 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33404494611834 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20349555457938 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.45995075097171 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35619841078405 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07976599723867 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05149871027358 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571483010717747 Pqlo = -0.218747313168711 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02711189672317 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51330825445572 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35464995045547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07223356749981 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04521611918252 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33567287075551 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20477139615081 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.45485306396253 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35415953759501 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07760231366228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04950574499037 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571590537970021 Pqlo = -0.217827436652135 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02169870169963 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.50850975613244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35272787059578 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07035036193295 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04348172988210 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33649537925192 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20529729393231 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.45055979773608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35246682778634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07597653274188 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04799227210490 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571656752120105 Pqlo = -0.217256630818973 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01897033972159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.50459817423603 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35119354604901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06895592539281 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04219224762154 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33690518529609 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20547463306997 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.44721595322457 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35114940469912 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07478425106143 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04688129616458 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571698631155201 Pqlo = -0.216901043853745 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01763126920606 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.50158067314781 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35003128332978 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06794185330493 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04124978514858 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33709864992723 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20549819852412 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.44470761728851 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35016274600095 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07392951827059 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04607862096754 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.571724098136002 Pqlo = -0.216683536562117 W/cm3 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01703795618389 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.49935947966908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34917417739244 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06722566432726 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04057555725422 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -3.951E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.751E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.074E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33718153689765 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20546534829842 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 3.44286756826761 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34944094141194 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07332369128828 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04550635613438 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 28087 TA= 5.60000E+01 CPU TIME= 7.62740E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.3319255555556 %check_save_state: izleft hours = 61.5886111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.600000E+01 NSTEP= 28087 Hash code: 51934137 ->PRGCHK: bdy curvature ratio at t= 5.7000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 56.000000 ; TG2= 57.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7890E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 56.000000 TO TG2= 57.000000 @ NSTEP 28087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -1.93147E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 7= 1.18039E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.48314E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 7= 1.18038E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.42345E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -1.93147E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 7= 1.18039E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.48314E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 7= 1.18038E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.42345E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.048E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.945E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.283E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.49933000000601 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 5.22856731100375 q( 3 )= 7.37960789469816 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9103E+00 8.4331E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 7.04451455258037 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20840336248366 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.365440453392281 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 9.08990660797366 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27767364616989 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.329790542171831 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.95935721609898 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12729 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.048E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.945E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.18029689667829 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15635314709461 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.02213550849148 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.47342639103510 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.42549541015051 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.38833993137932 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.456527518590709 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.91706868358655 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24418009578840 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.329212774199256 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82898179570574 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.07182057198149 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 7.36767755034736 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.63893486674677 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.25142357890317 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.94301844261337 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.53333813386492 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.35846526638307 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.295548158687103 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.71876243620658 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.05574835798838 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.65224346688567 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25084414893389 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19527016464600 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.44691957654600 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.27851203117383 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.12587175657418 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.348120524368900 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64494150906675 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.04837878675602 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.24690510980071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.06068968171157 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.99981074762875 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.12927622783581 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.11612021727730 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.05679381492671 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.358599417996338 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59378650848739 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03948972297564 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.97962530323979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94636308632617 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.85212902271206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.93797921570429 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.01732841512638 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.00291244446171 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.371543227271721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55424828887877 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02946696174685 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.79846264943659 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.87210420461061 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.74699520534634 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.80704549624810 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.95486621538807 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.97326011779582 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.379021646225241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52364935057517 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01955527375587 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.67366541811051 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.82203946947875 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.67186413328422 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.71540810190752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.91632696009635 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.95606221913348 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.384102467993264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.49997881257686 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01079883353889 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.048E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.945E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.06479875517267 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.12628073629294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.14061173156323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.58552997179394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.28490334295283 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.25076367892865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.310133753986466 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.76399221241294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.19247131351560 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.95849795045909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.08720431517713 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.10911927134827 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54087858161401 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.30310823426220 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.19563912953659 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.325884076179163 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.74925746428303 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.18508809097508 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.90379213208541 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05489653685912 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.07673120537735 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.51540263026596 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.31870238631099 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.20421446583444 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.322519716825487 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.73979581897195 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.18098334003987 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87006678439395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.03355088681018 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.05389131268554 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.50019143481428 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.33799679906486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.20921686616225 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.322217565044914 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.73315264536297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17776079313129 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.84864855874707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01947410339934 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.03780472369339 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.49081365071821 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.35927846417530 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.21847324290217 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.320915767831701 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72862814118350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17552077554791 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.83625342004076 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01160480400951 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02741192860930 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.48834939891425 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.38264289665153 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.22915790393374 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.319590365982503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72598721478772 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17403470420085 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.83090878387973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00854673418891 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02154765423848 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.49100206499394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.40750228689656 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.24119627758721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.318012675834341 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72482887461849 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17317422554413 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.83121052483438 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00935905723218 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.01950404433612 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.49791470992579 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.43332883635548 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.25397274901422 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.316306565394200 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72482729355875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17281572145088 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.83604596170932 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01324599847439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02058278047708 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.50812595795940 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.45965781455662 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.26717051307534 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.314531907710458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72572017137965 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17285637012557 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.84449697821299 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01955427188197 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02419105858999 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.52091570085983 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.48613063481702 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.28055507210242 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.312740021952521 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72729294229601 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17320782572643 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.85585402573909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.02786150458804 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02983628285219 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53565982354071 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.51243586544874 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.29398051452895 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.310926768112204 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.72937487691200 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17379759833566 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86958834985588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.03781300849081 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.03709482805537 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55182495744263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.53803081962023 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.30723658685878 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.309138329661870 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.73182499545695 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17456397441730 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.048E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.945E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.70138856579524 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.81211809854938 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.93681925699274 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.51051098150441 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.54081117196138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.34570225153731 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.302022909144591 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.78285763106264 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22048599275829 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.69477461007718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.82015031892796 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.94639586554206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53773770044430 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.57315540726951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.34154540721727 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.303304277754523 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.78608159266485 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22227671680107 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.70974258899794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.83047527540710 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.95688200806297 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55682950904844 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.59997979782996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.35640353652571 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.300798234912882 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.78937583645092 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22369865871307 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.72748421500680 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.84253616684771 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.96790076433660 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.57701677169587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.62552883474460 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.36900207189574 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.299244795844916 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79269080058609 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22493694214641 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.74587640184545 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.85503139520501 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.97913970756470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.59662829818649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.64937053516249 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.38155717082189 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.297550440635013 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79593635881852 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22610183605022 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.76448799724048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.86774758459081 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.99055168770232 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.61584356964924 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.67192823689143 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.39339642312014 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.295995918796071 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79908508919147 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22722122613520 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.78314440727270 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.88050437496692 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.00200101973242 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.63451755293083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.69327388227056 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.40466196137485 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.294522474792013 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.80212508431355 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22830457514019 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.80170606237905 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.89319303916803 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.01339089709518 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.65261896571643 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.71347177071770 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.41536645377938 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.293128393100208 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.80505158410090 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22935385465435 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.82005634896721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.90573985745076 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02465447617478 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.67010430940955 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.73258992956096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.42552353210939 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291809973427458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.80785786277916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23036789653454 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.83811563439737 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.91808876082799 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.03572578836275 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.68692527041149 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.75066528373648 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.43515681512658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00224452173784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291716325263837 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.81053865613849 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23134610871521 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.85615236735521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.93004235377698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.04650830180723 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.70252576269758 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.76740769480560 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.44528940165063 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00642236531056 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.292288013329551 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.81312971596883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23236423909822 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87416771256855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.94165706256594 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.05703670361517 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.71710634849059 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.78300179963125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.45560781267268 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01105765690252 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.292903457857049 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.81560192976260 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23329344728594 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.89192031514766 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00056561951052 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.95299765029581 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.06731997813289 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.73095557340343 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.79764181647819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.46554949146566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01563985837221 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.293520262343935 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.81796697232463 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23418343731647 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.90913162730022 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00510448128511 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.96401908621893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.07730305632961 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.74408793035852 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.81138269117845 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47501364319060 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02007715340000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.294127276296607 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82021710779754 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23503370331668 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.92513911229100 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00934030927852 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.97465863125376 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.08690698564256 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.75651395838826 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.82425085675336 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48398559689962 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02434329843875 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.294720102096096 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82234701195896 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23584333626798 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.94050986115812 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01337259833860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.98492212064643 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.09605399025441 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.76825830035384 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83615178707635 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.49247926395219 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02843106437458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.295296691315853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82436000697190 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23661194612415 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.95528834274753 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01721686354647 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.99480275851872 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.10486196594102 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.77935865022804 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84725353120568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.50055918254196 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03234939868762 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.295857739021012 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82625978628747 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23733852289100 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.96948388018327 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02088210995559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00430418916688 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11332724497013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.78983182908210 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.85763978190181 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.50821103142105 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03610100305606 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.296401703867940 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82804873240294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23802452106670 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.98311005121370 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02437722234692 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01343880454159 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12146283573805 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.79970985638869 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.86738211993143 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.51553345550987 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03970565066229 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.296930280691155 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.82973119643001 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23867156201984 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.99616824167653 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02770782367031 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.02220794032947 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12926162384905 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.80900884936442 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.87649863972543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.52245045079081 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04314337020852 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.297440161272566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83131030757647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23928031902233 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.00866403015534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03088044438453 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.03062374924567 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.13673489761070 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.81776636478160 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.88501949149214 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.52898955324332 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04641469533600 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.297932544770173 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83279186395110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23985265053789 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.02060629432795 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03390259424119 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.03869320506681 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.14389299256740 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.82601215790838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.89300304238322 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.53509063431020 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04951206616106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.298407666797652 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83418053536576 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24039019865070 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.03201652122033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03678037130979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.04642245998101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.15073767679989 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.83375923347851 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.90047043935513 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.54084386529663 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05245848311485 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.298864472306160 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83548148265561 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24089476457140 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.04290033093224 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03951830958059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05381958821487 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.15727925658225 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.84103751268022 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.90746296728408 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.54623369844726 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05525155046236 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.299302701436547 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83669789136320 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24136713469865 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.05327450043237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04212263577638 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.06088624344558 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.16352521706890 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.84787982854626 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.91399738759196 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.55132655773257 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05790639343285 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.299723065111375 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83783419022919 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24180903484687 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.06316780919288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04460077859161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.06764125529535 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.16949067401284 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.85429988116856 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.92010333857989 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.55620184190488 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06044283323559 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.300127149111586 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83889536386857 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24222246586771 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.07259508150621 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04695819801475 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.07409530670441 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.17517625552576 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.86031615579672 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.92580834058757 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.56084718453857 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06286066022974 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.300514441137909 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.83988485193889 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24260867331207 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.08156997006591 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04920018520214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.08026096918943 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18058720907866 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.86595196786908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.93113991630309 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.56521002132282 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06515103223787 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.300885254748969 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84080704295987 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24296906405804 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.09010984768557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05133252281199 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.08614799279745 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18573472618855 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.87122263078260 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.93611997868454 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.56931551676598 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06732372489793 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.301240128273572 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84166597750354 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24330528525957 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.09822835662092 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05335967944547 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09175812359938 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19063793252042 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.87616107256016 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.94076214888702 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.57320973891131 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06938265536645 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.301580127574427 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84246723442785 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24361991592508 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.10594304496851 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05528646383823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09710384296857 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19530839252216 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.88078883931232 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.94509238599845 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.57689219471774 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07133389202264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.301905643365671 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84321451879443 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24391429759371 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.11326934690395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05711733084028 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10220351151171 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19975375790669 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.88512082564250 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.94914385491232 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.58032633152767 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07317512663540 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.302216103095185 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84391058408984 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24418916269188 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.12021970269692 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05885655981741 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10706181310331 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.20398337405451 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.88917226896458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.95293245181784 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.58354148729173 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07491660787532 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.302512218269317 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84455808067774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24444551719338 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.12681408131798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06050856334944 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.11168447227718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.20800258304194 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89295577159513 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.95647045481338 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.58657344218378 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07656611433121 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.302794484417727 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84516019735520 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24468441756054 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.13306531168679 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06207719210778 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.11607901767957 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21181928626292 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89648634928291 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.95977444693529 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.58943323490659 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07812788325655 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.303063351476120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84571983604155 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24490701672728 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.13898600202843 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06356601830279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.12025329865113 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21544153322673 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.89977917593619 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.96285948909732 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.59213093860741 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07960619152621 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.303319319101321 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84623976277653 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24511432021582 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.14459414228393 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06497943612553 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.12421918543279 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21888058319256 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.90284546648521 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.96573522652951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.59472703497453 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08101853087629 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.303564376157747 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84672255301672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24530737948043 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.14990487528794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06632134839007 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.12798496278684 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22214236251087 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.90569793301644 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.96841474220357 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.59717707513195 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08235607833588 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.303798033852705 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84717085322784 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24548750384962 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.15493289035279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06759535764041 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.13155958418823 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22523353115051 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.90834891856666 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.97090807226647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.59947380368737 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08361921071752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304020465724180 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84758755621289 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24565572675524 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.15969673648828 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06880550440144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.13495461052892 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22816461939265 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91081966863147 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.97323626709344 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60163600717703 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08481462480760 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304232353474426 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84797452861830 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24581242258942 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.16420691958906 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06995460863418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.13817771628418 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23094387335217 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91312064814862 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.97540919058635 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60367528985805 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08594562860696 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304433880636282 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84833363212193 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24595825673484 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.16847465399685 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07104547753458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.14123591980861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23357731018559 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91526082679162 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.97743434352996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60559774864228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08701466236693 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304625403780013 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84866695271652 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24609403395058 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.17251132901074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07208093005551 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.14413740252112 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23607298282624 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91725240927614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.97932441012760 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60740992800476 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08802498171305 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304807346300292 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84897603281796 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24622030778921 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 6.17632765066515 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07306372118503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.14688926769851 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23843783598007 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.91910497169210 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.98108884622301 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.60911639601955 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08897972856402 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.304980176430504 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.84926252655463 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24633781457275 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.048E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.945E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.87732848065750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67774896580021 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88139696864438 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.50761254379421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.79650164466889 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.50228715692616 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.285516944418359 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79518049134146 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23977904781015 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86317910971345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67921267672926 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88018017370807 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.52800784397583 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.81180125931430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.46485501362949 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.294360192111466 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79506455486420 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24133267086506 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86350096761488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67841010434394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88025445107328 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.52717053711036 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.81441470303946 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47171088008494 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291883489895516 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79497580352176 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24165368969619 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86480268049766 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67951407894270 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88135193879414 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53084550067415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.81927320468590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47212636523450 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.292363497783790 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79514342898547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24177259000738 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86629293267946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68058322078718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88240867346202 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53305248625847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.82263899346433 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47437352716640 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291988903024120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79534634517363 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24183594047689 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86783019329744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68180803788861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88359382878531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53532678503297 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.82577124426724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47588485970871 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291854586806899 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79553689172084 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24187221073879 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.86942335890619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68300822001416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88475080975248 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53729017909727 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.82846895751887 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47738533205549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291665522033309 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79570583836369 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24190033614733 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87101427519522 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68417163398843 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88585817651071 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.53908173566899 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83087707839741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47869096965207 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291507689991187 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79585653450163 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24192633178002 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87256382276662 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68526872667385 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88688989193871 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54069175799176 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83302558950611 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.47987608880026 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291357674791320 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79599357537780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24195359631957 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87404498460102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68629302770102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88784188597491 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54215062299705 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83496235788045 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48094227470440 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291221408803927 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79612068471796 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24198355454737 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87544478755058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68724264341480 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88871546988224 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54347495890398 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83671673321768 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48190914443238 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.291096116414916 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79624132484911 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24201680531799 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87675860747533 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68812068324320 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.88951555070623 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54468176748464 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83831353029188 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48278841538670 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290981346721770 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79635743914249 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24205340065441 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87798705670848 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68893213345500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89024976083990 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54578471980857 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.83977221771699 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48359128048932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290876021555153 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79647011157339 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24209303652675 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.87913349042646 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68968270374356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89092518344387 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54679508011784 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84110809405524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48432661127977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290779336771753 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79657981109258 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24213519397496 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88020261779184 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69037820038045 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89154849937488 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54772212698009 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84233370552331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48500196968796 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290690509696845 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79668660086164 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24217924522318 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88119960833100 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69102406004896 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89212571034108 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54857356657938 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84345942226119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48562366182477 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290608858362666 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79679029220478 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24222452603855 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88212967995524 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69162524065298 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89266212476786 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.54935584540030 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84449394924046 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48619701222600 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290533776602042 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79689056494196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24227038398815 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88299786278791 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69218617183813 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89316231568007 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55007448166474 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84544478243198 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48672657039454 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290464717405848 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79698705701703 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24231621413046 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88380886780808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69271075638643 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89363014796874 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55073430709727 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84631851690426 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48721626742803 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290401186267843 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79707941706579 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24236147336329 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88456704391879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69320242346458 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89406895633233 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55133964231366 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84712107866235 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48766955367332 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290342734443619 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79716734744335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24240569902481 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88527639626102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69366418647035 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89448160271336 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55189442904136 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84785787518582 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48808948750632 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290288951141648 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79725061978408 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24244851071436 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88594061812984 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69409870085272 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89487054371057 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55240230416787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84853389825825 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48847881457349 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290239459328329 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79732908775661 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24248961453328 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88656310349045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69450830132892 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89523789782384 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55286666156207 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84915378353165 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48884001611692 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290193911850646 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79740268376653 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24252879574329 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88714696851022 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69489504153500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89558549945431 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55329071748970 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.84972185838231 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48917534836290 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290151988774700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79747134968171 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24256591162347 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88769507778550 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69526074733332 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89591494472898 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55367748993801 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.85024216528525 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48948686763806 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290113394495973 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79753518991262 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24260087890886 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88821006708599 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69560704242207 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89622763218477 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55402983259481 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.85071848873825 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.48977645504015 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290077856455898 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79759435787452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24263366251113 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88869435903590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69593537392896 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89652479353848 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55435044234120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.85115437305749 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.49004583670294 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290045122734723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79764901206008 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24266426643901 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.88915018074277 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69624703676090 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.89680751951664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.55464186425756 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 5.85155313354002 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.49029660107493 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.290014960559958 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.79769934341827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24269272685385 at nshe,nfasti = 8 5 ********************************************************* FPP warning: energy grid might not extend to high enough energy to represent this energetic tail which has an average energy of 1.536E+03 keV on shell 1. Max energy grid point is only 1.000E+04 keV. The fast ion species causing this warning is: He3_mino ********************************************************* %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 28587 TA= 5.70000E+01 CPU TIME= 7.62792E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.9808527777778 %check_save_state: izleft hours = 60.9397222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 5.700000E+01 NSTEP= 28587 Hash code: 10438418 ->PRGCHK: bdy curvature ratio at t= 5.8000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 57.000000 ; TG2= 58.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8340E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 57.000000 TO TG2= 58.000000 @ NSTEP 28587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -1.28642E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 13= 1.20178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.24896E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 13= 1.20178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.18468E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 1= -1.28642E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 13= 1.20178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.24896E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 13= 1.20178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.18468E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.94435599999269 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.86119548209463 q( 3 )= 7.12261007191639 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9111E+00 8.4333E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 532.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 532.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 5.19610597022578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10478046745612 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.48780779944221 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.57164697296081 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.37126946956393 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.48122283128005 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.78444148651905 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07632199062177 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12731 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.115E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.69013161114043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.16149366898009 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.41036095533453 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.14061764521164 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.60426483445687 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52528239362546 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42688506663434 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.37639973768921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.06793139450815 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.74086839050586 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54697771646923 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68162064405991 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.65794079662341 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56613327565128 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.64468544015943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13751184677251 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.90914689489120 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61854404627314 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73479347018400 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70539600238869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60595303941428 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.87015991041503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.17799337585787 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.00915827947285 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65990988876878 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.76949227933826 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.73716128422229 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62509290916103 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.05389285411121 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20758054591859 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.08137775610018 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.68852967683882 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79191420415145 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75817395750244 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63584351531583 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.20014397644997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22984781119773 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.13485396586285 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01556030393836 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70739433217103 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80572044916245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77179511710979 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64175427532239 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.31145493407731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24670017302737 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.17400993611967 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02869120843058 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71980469625789 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81332391545006 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78002826439563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64444897136804 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.39616555316384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25953870679292 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.20291655863466 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03867874630523 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72742430967779 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81662290076374 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78443974655630 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64511341209608 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.46144978681092 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26948871472215 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.22351842125610 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04612731916905 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73168685788573 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81707865221880 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78611488627297 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64438629689312 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.51166575514276 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27732386766451 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.23784938935517 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05174826319673 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73374330091001 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81577421933238 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78610612776537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64289350872726 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.54968502257808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28347423239179 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.24819830199483 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05613357606314 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73437812242351 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81340173636544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78493759375869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64101533516410 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57848191128051 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28836782312274 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.25566649323880 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05961499202074 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73407302162144 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.81050058202768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78311574028289 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63899944790776 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.60027763963976 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29222520569239 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.26110889413296 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06238275771141 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73324808603334 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80735587124135 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78091871161912 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63696832247279 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.61695438335078 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29532137466402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.26506376067619 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06461126647023 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73213021957519 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80425229188957 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77864681832461 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63505502707743 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.62967364347367 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29782948900635 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.26795048423875 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06642020732442 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.73083745416151 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.80120778139728 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77634199773496 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63323181577160 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.63942052948916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29988808824265 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.26997900676050 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06788867932757 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72948227317208 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79835235200558 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77412745699792 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63152808866566 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.64685419021897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30153929765119 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27146187657879 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06909406468658 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72814310792486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79567906599777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77198963679664 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62996049977924 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.65251388668779 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30290458771670 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27245866600718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07007800878967 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72685052736546 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79321925428310 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77001757613780 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62853484279678 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.65678328987475 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30400776325623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27314968646819 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07089224490488 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72561113138410 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.79097241914674 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76817094147245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62723387928149 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.65999450711259 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30492522901964 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27356832737284 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07156336015871 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72445135388353 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78896351222407 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76649467442894 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62606404508119 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66236744913295 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30567053114743 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27383672030630 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07212295586262 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72336556780372 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78711765844355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76493876282028 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62500177602915 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66409936124257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30628822951149 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27393490210708 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07258307010897 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72237590644520 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78547807074943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76356604633598 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62405944267637 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66539426286828 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30680954723660 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27398447402984 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07297207438691 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72146603325880 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78399766597970 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76229159479169 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62321627199112 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66629213460426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30724038628335 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27392066914634 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07329326051705 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.72064816267397 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78270048067574 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76118665666295 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62246695139474 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66693046034754 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30760051950575 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27385324295137 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07356645013797 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71989904654066 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78151969701551 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76015930598239 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62180174437274 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66735278197886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30790684705477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27371617159797 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07379325409258 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71922704775154 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.78048103519837 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75927380773055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62121511541197 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66763192525329 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30816191401836 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27360789492862 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07398703750684 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71863429399567 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77957044953443 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75845858428604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62068962688947 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66778132542511 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30837511652872 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27345029516632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07414873277582 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71811047649217 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77876064761764 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75775573073503 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62023670491878 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66787847232921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30856489438453 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27333672668625 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07429099917124 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71764492830314 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77804273874099 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75710949658271 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61982406523689 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.146E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.096E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.121E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.66789097897331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30872407431226 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 4.27318349670362 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07440721855782 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fp_imp warning: RF renorm adjust = 2.71723069157028 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.77741948616162 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75656721985817 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61947746801943 at nshe,nfasti = 6 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 29087 TA= 5.80000E+01 CPU TIME= 8.31090E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 19.3959369444444 %check_save_state: izleft hours = 60.5247222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.227E+03 MB. --> plasma_hash("gframe"): TA= 5.800000E+01 NSTEP= 29087 Hash code: 103002761 ->PRGCHK: bdy curvature ratio at t= 5.9000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 58.000000 ; TG2= 59.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8560E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 58.000000 TO TG2= 59.000000 @ NSTEP 29087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 85= 1.39131E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 16= 1.20832E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 16= 1.20832E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.24896E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 85= 1.39131E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 16= 1.20832E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 16= 1.20832E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.24896E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.243E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.983E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.317E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.73246900000959 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.51199019785574 q( 3 )= 6.83682863392557 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9115E+00 8.4336E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 6.29983333508463 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.47097479384947 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 6.90550820078528 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = -13.5224116811167 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -37.0341891018977 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = -1343.89239033947 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 80.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14122764570986 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10697186107822 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 5 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31947890348724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.29463897373877 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.90079970886872 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.50158528689899 at nshe,nfasti = 8 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12734 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.243E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.983E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.21485173012482 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 6.24320716595121 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39503794092183 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.460606078116867 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.06237914571898 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06120620615406 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.94178152359231 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59086577419015 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37506142943755 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27474982455400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05079144704863 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 8.98036608725163 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.84895869231270 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15175084138604 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.427810441526755 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.93620429773609 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.85588230819539 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50834871099106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.32962289549447 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.47367417391924 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.54227245159681 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.94190797179323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.16390523345057 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.402157078147536 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.83801966039315 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79341444374675 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46529364563558 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.30250267880436 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.48385776160088 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32317584872064 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.28719354389009 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.84411707626720 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.434996616721558 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76115571027765 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74729196162980 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.43528875403519 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.28221122695715 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.41270206352189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18693695100036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.82941603158348 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.53589039358448 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.450600765525201 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.69799539511138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71025653284594 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41160004067883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.26577705526631 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.36346051385211 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.10540244632824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.53365120004488 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.37847091228087 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.462156797724271 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.65696761974096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68125066415352 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.39267846155799 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.25230233052400 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.32297924580406 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.05102922697911 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.32671801472125 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.28307624973185 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.470005461421744 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.62897051656410 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65833124653106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.37740399591232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24117522211905 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29134774023504 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.01249992916220 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.17503983401266 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.22688127100709 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.475398647781037 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.61030110772845 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64025289157978 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.36507199738899 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.23200828808606 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26659578815379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.98408852060443 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.05844133125989 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.19755590138477 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.479049009540052 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.59841624364079 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62585216485106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.35515024569549 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.22449760498322 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.24646695316308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.96257897082340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.96915702840891 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.18545083071742 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.481523114276959 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.59139843994319 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61403414620763 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.34722600655637 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.21839671853117 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.243E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.983E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.34796899603058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68970823039416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.34378174677006 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.53450467338502 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.424166425534732 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75444491765182 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81874237807414 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52551304332317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34071149504975 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31086374665961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69742186832939 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.31727005456162 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.62211125109774 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.427285281829609 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75921653711785 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81018033582476 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52126152661751 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33726781074548 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30066814155944 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69126163358659 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28995757987253 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.63397719532721 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.426666603559060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76066961674432 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80629031608162 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51852762177731 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33481037014076 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29434956897478 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68477791116552 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26512848760661 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.66264851367857 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.426074056008574 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76472335949790 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80347490366392 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51630534631128 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33291903071959 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28933273510896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67943742815207 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24297745759122 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.69375992095769 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.425181766087031 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76997797214545 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80168652055751 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51469910653870 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33154671717172 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28537383618531 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67557010069695 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.22491634422565 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.72716167734836 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.424126811326005 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77615393041239 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80072523869675 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51368373772621 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33064609716243 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28238672651802 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67314747675236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.21112015407321 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.76224092630788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.422919825917066 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78302284794531 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80036492298836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51319511682730 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33016204559638 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28030728136324 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67207159243846 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20127623046746 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.79875205569600 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421586778900999 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79042737419509 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80063146396263 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51315220915400 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33003977303129 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27909972105306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67222947061979 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.19388454418852 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.83650536055624 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420142592044470 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79824894374934 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80141331791844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51348440268417 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33022418342760 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27937506447251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67385158232427 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.18944730088324 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.87592204624158 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418631060601662 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80640317753069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80261636748009 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51412792732389 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33066475240457 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27882177957613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67572641341910 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.18711012759206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.91424025489264 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417140336555855 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.81466043512245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80414866417920 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51502864443798 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33132651167210 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27955513244188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67869913477318 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.18729342286067 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.95355243856560 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00013146773200 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.415671021150693 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.82308782778984 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80595502456485 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51614360459258 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33217119706869 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28079262939090 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68243104260226 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.18965613209339 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.99291384627116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00481968953931 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416564303847185 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.83155142352405 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80796628113748 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51742801307274 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33316703749692 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28047539886838 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68581205337175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.19273476546023 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.02629460360153 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01072432135218 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417661968864409 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.83956913769677 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81007889427021 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51883459367791 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33428316589822 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28047930672038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68955908869705 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.19762453844074 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.05953058938885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01703338772105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418854483807198 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.84753830653479 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81231101437884 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52034908776909 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33550196503680 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28080373734875 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69369720898477 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20408130429414 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.09226772006638 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02358794592695 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420101505567587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.85542561990520 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81463975875842 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52194731029164 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33680127093763 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28141969801651 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69818020320739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.21182107336355 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.12429276947704 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03029687299433 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421385838700764 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.86318921406503 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81703188861695 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52360535491390 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33816208799658 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28228208922947 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70294693732539 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.22060660085166 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.15522000171311 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03708295923450 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.422692081870891 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.87077634693394 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.81945772181317 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52530546520286 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.33956736366509 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28335897010624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70793219778968 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.23024029884179 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.18532434725637 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04389611934453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.424009820586142 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.87818330818841 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.82189346986735 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52702844120199 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34100234192921 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28464913335682 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71314870062478 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24066071627712 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.21511898089619 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05058298888308 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.425346948686072 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.88539250633938 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.82432228876754 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52876045395022 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34245509415159 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28560278297036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71826090204618 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.25193774813760 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.24373269231083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05729265745259 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.426693196457235 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.89237575459384 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.82672646527505 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53048735900838 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.34391495898856 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.243E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.983E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.19747846053355 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.53586711493051 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.99710473011826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.02205486541571 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.434803369234398 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.87862432031395 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.85955201526876 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56623855419036 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.36639600892983 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.22296811495622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.54642893226534 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.98274241992946 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.07173183592007 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.431501137927268 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.86925138248851 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.86338568578191 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56960476663795 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.36744466852357 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23237674508783 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.55978174816693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.99256318655366 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.11638311376422 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.430197979262212 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.87503827399677 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.86629810263635 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57195563626223 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.36906722741396 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23602319978267 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.56837718528193 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.00313024944769 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.15053039904745 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.428715368181629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.88118955675307 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.86876502155087 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57390385886435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37060010323317 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.23902570132446 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.57531838076087 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.01417411714191 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.18261539222079 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.427304716056996 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.88746786337842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.87106210502052 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57564332957346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37204047997374 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.24212309223374 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58158656104236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.02514364446175 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.21274407357734 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.425949419808739 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.89360285967297 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.87322995821609 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57725034629961 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37340351445343 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.24521755350473 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.58753577301128 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.03593968539854 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.24136854893080 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.424629918670501 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.89952487273069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.87528532361357 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57875927361254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37469949857412 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.24838775906065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59328559998356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.04651601123759 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.26870182635958 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.423364138537003 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.90521549884915 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.87723891196372 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58018812994505 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37593652360902 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.25151847781088 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.59886622962841 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.05686450869486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.29484422943600 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.422147269433942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.91066671945624 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.87909807963148 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58154698319122 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37712049852388 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.25461333930095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.60429074853018 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.06698551361522 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.31985942133641 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420980063704704 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.91588025328312 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88087046854787 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58284407445775 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37825606032747 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.25761765330172 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.60955811453564 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.07685539166285 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.34377406358332 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419861802125493 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.92086697631024 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88256236264969 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58408505352828 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.37934651389191 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26056176163372 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.61466765021362 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.08645043912174 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.36661951746092 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418790694924327 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.92562784660905 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88417832178591 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58527392684110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38039506238827 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26342940047045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.61962030704210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.09576122092571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.38843801026273 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417764121771905 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.93017141171913 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88572293739161 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58641377197309 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38140414577422 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26623576104467 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.62442259931197 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.10478864905904 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.40930366056463 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416785107688285 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.93450505203902 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88719817037549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58750734282230 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38237524221399 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.26895761211849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.62906909626422 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.11353047695631 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.42921862286293 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.415850752341105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.93863373881649 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88860684681380 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58855682106928 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38330975338301 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27159016701659 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.63355678709594 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.12199631850738 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.44821485961654 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.414958265052578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.94256484027961 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88995168395977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58956287954206 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38420951873983 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27413410996589 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.63788839637266 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.13017079565460 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.46633312398157 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.414105970180121 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.94630703880610 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89123480191851 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59052876650754 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38507564340852 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27659174450987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.64206896923772 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.13804805659194 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.48360610077930 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.413292530349786 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.94986900310328 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89245908336736 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59145495263087 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38590908773359 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.27896253663400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.64610053665734 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.14561655437290 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.50006155898606 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.412516248013783 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.95325710045896 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89362655608241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59234246234985 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38671048384183 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28124745887694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.64998701596795 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.15288604697795 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.51574856764712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.411776316429339 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.95647935011935 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89473946317968 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59319255055060 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38748101269838 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28344875758750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.65373079559177 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.15986223287331 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.53069446884827 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.411070541079372 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.95954103122695 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89579962795050 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59400648503798 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38822172118375 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28556968485582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.65733521460746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.16655921646212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.54492184022395 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.410396151061322 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.96244410495578 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89680868752240 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59478538295843 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38893333255001 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28761032541638 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.66080423504178 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.17298003530689 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.55847566948120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.409750917322065 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.96520196571764 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89776879690952 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59553527400700 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.38961659965853 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.28957398770850 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.66414228123463 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.17913030269089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.57139486788060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.409133088542295 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.96782089480196 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89868145761420 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59625473733869 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39027244054995 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29146237728582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.66735192320027 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.18501698635501 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.58369207773487 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.408543241762057 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.97030637779178 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89954830735165 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59694227392162 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39090242560898 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29327749722784 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67043661038633 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.19064913644777 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.59542207621625 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00031049632458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.408146050692515 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.97266572122759 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90037134202451 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59759883999632 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39150698473178 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29487380437643 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67333774982335 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.19596020001863 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.60614179395111 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00213939755981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.408553023253209 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.97487176931147 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90114868913556 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59822497247055 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39208683634306 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29572533089128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67582844569095 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20071169748543 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.61433117623223 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00433617876976 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.409017792040257 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.97681346393979 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90186940483556 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59882049751363 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39264322231411 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29653637547072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.67817142453154 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20533278472343 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.62224022751735 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00657974114629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.409492012096441 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.97866215442912 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90255730281687 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59939199479185 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39317899071725 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29733457701189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68037485082687 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.20985188519070 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.62985879112773 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.00879983914182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.409964581944695 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98042662027382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90321591912992 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59994140060397 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39369523975807 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29811632887429 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68248719923563 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.21427321445985 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.63709836742018 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01097139407351 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.410428806096182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98210580771296 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90384509107827 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60046897988085 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39419235444367 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29887809257824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68451475423536 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.21855268143294 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.64393261626675 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01307996842451 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.410881109919702 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98369836089425 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90444464234027 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60097479491541 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39467058796715 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.29961850266621 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68646162825644 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.22267637453031 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.65037163435646 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01511765463544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.411319894699146 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98520703028225 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90501490356740 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60145905214077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39513024583554 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30033418715165 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.68833059692824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.22663707491508 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.65643161958452 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01708128653951 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.411744468587738 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98663576877352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90555658249029 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60192214688118 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39557171105183 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30102470387707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69012274325703 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.23043295690396 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.66213364739402 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01897039259710 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.412154639166342 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98798811135463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90607057490862 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60236459974886 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39599541414684 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30168973682943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69184043468713 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.23406581068328 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.66750111767594 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02078656872592 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.412550564334949 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.98926765089681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90655790052153 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60278702030684 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39640183250484 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30232946118752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69348660023509 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.23753919214208 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.67255502362155 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02253175931758 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.412932521991812 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99047767117663 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90701955186925 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60319002514542 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39679145785801 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30294414203936 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69506470399763 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24085768867363 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.67731570344951 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02420823612127 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.413300864152503 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99162152067805 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90745654590176 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60357426566954 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39716497762981 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30353420689077 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69657807538882 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24402758956673 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.68180154860576 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02581824662031 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.413655988640911 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99270225759449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90786992240161 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60394052337063 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39752283500809 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30409950835455 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69802848435935 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24705223472708 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.68602946027635 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02736384533555 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.413998230358610 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99372281826898 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90826050528007 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60428936510548 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39786546877588 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30463996265019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.69941794870959 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.24993685675221 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.69001373156148 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.02884739176717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.414327993417910 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99468697382159 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90862970712872 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60462167812531 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39819349980955 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30515613504624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70074824691444 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.25268666068476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.69376664305955 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03027114803453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.414645663886981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99559812340637 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90897880123681 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60493823692511 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39850752597986 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30564935908931 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70202208346941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.25530150509270 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.69730176606358 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03163739339211 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.414951626705723 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99645920126533 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90930884324562 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60523976194126 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39880810797268 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30576482560769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70304023741436 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.25821363471724 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.70012095329696 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03297144410787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.415252357990078 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99725683300199 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90962092545359 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60552753317940 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39909619342537 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30657315791957 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70432705507198 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26040351768168 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.70370558386543 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03422712953683 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.415534770531124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99804889895615 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.90991863710059 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60580198648184 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39937190769801 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30727944434259 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70558120993079 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26223047989212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.70707805040175 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03541220077471 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.415802210525034 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99878624171965 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91019711455731 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60606203740054 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39963512418996 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30791475441744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70677489066644 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26387841328692 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.71024732054368 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03653495069824 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416056799820786 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.99947691270778 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91045765058495 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60630824395176 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.39988626534095 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30779745077376 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70754596192698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26623383125906 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.71222362686658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03764816721159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416312034474990 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00009439200119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91070209783694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60654265574077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40012670218585 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30814207220488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70844829962954 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.26837310800539 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.71462030400080 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03872110694049 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416557900208375 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00071029470129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91093737351113 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60676724753154 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40035727820718 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30850494091116 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.70934888062891 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27030244862706 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.71693820948180 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03975046509782 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.416794152183179 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00129402177811 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91116053349211 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60698160152807 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40057814326027 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30885397332796 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71022152662586 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27209988543247 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.71913786094991 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04073649971184 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417021133437612 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00184576604860 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91137149501617 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60718587153163 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40078959578305 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30918419169214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71105954210140 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27379534741409 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.72121607670424 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04168133107562 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417239327988987 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00236729276103 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91157079012433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60738042202340 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40099198853684 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30949814197033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71186246765982 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27540261899337 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.72317837895011 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04258715406806 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417449174930612 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00286068680413 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91175893549121 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60756568424827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40118569829512 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.30979641743510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71263138521974 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27692950875182 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.72503172495386 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04345595373960 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417651063085595 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00332782315640 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91193677635752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60774216140669 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40137111684192 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31008075925679 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71336777497692 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27838169445463 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.72678292084469 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04428952318383 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.417845339548270 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00377034969799 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91210501005804 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60791031896155 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40154861707028 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31035178210492 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71407323016911 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.27976393119090 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.72843877272985 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04508951375580 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418032325746776 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00418999168873 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91226425053680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60807062308020 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40171856302101 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31061057635561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71474923954479 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28108033469674 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73000524017596 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04585746377092 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418212318061163 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00458795446219 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91241505554490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60822349199737 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40188130614642 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31085753879999 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71539708803983 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28233449290685 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73148759096048 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04659478334526 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418385593312048 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00496554106481 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91255792269272 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60836931495819 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40203719006440 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31109306904018 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71601789480890 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28352959360871 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73289056178319 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04730275059781 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418552406690575 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00532395969133 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91269333271546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60850846920524 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40218653097727 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31131809386805 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71661297274321 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28466865609105 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73421885196504 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04798258857697 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418712997662330 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00566436314296 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91282173400100 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60864131441861 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40232963493920 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31153291784918 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71718327336972 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28575429370190 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73547580814721 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04863538126297 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.418867586233736 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00598764914223 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91294355626246 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60876818412018 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40246678656367 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31173807284305 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71772984832612 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28678916339359 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73666592276598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04926223104562 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419016398071905 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00629473445419 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91305919806728 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60888939496009 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40259825971167 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31193397546066 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71825400452893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28777609703028 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73779353086899 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04986423063769 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419159656135980 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00658652085086 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91316902013594 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60900524014295 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40272431120339 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31212102075053 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71875649051738 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28871693959976 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73886117175861 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05044234608183 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419297550853610 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00686379222883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91327335458709 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60911599467516 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40284518579306 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31229968772735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71923825847478 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.28961389207446 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.73987228410792 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05099751520455 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419430280157064 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00712731007589 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91337250419683 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60922190911254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40296110783416 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31247038557012 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.71970017322122 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29046901902533 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74082999882602 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05153064336071 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419558037353275 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00737781455729 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91346675667512 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60932322361684 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40307229757662 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31263325024403 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72014292174481 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29128401952736 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74173659031133 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05204258231802 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419680993936655 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00761593360004 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91355637094182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60942015666352 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40317895667238 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31278861942639 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72056721873734 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29206059459572 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74259459954745 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05253414390559 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419799321136535 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00784225038368 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91364158864946 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60951291601310 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40328127992092 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31293681529418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72097378273191 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29280040825687 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74340642955941 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05300611613539 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.419913187999203 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00805735982244 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91372263265792 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60960169307235 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40337944978593 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31307807841769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72136326672148 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29350502274574 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74417436638812 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05345925764457 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420022754598596 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00826180727075 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91379971566994 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60968667182344 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40347364423892 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31321272166142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72173632598840 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29417590461159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74490053852783 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05389428131725 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420128173769691 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00845607407175 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91387302878049 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60976802028608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40356402606720 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31334113147085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72209365149327 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29481450934775 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74558706830476 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05431188303503 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420229597019103 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00864059921022 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91394275323370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60984589968866 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40365075532158 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31346356608724 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72243590642047 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29542226585893 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74623599660489 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05471274506532 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420327172128975 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00881579291737 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91400905281018 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60992045775871 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40373398142945 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31358031174358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72276375315010 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29600063538715 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74684943038907 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05509753135102 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420421040076506 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00898216736634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91407209648827 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60999183423229 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40381394822084 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31287174061771 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72264750208310 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29706847114392 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74626334517105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05550981538914 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420522838098582 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00909463277484 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91413031132089 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61006087821887 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40389141084646 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31336023632255 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72306513006621 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29777264096305 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74720971444447 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05588236502164 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420613125014900 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00927758640294 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91419316551579 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61012882683470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40396634986009 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31363028202733 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72344876171034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29820497515242 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74794062910136 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05622773134399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420697080593467 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00943199590563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91425032501864 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61019304958414 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40403794160164 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31385540873276 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72381132896294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29856188557531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74862132240359 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05654980343668 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420775943479280 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00957404934185 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91430285827490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61025362879706 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40410625751505 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31405344558815 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72415139497120 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29887575048869 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74925637926486 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05685314095907 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420850654048743 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00970619469310 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91435144552336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61031079179828 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40417140497003 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31423320824278 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72447177299632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29915889499551 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.74985411845668 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05714066346652 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420921803705099 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00983029370647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91439671539031 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61036484682094 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40423357333689 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31439975247243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72477495601726 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29941679643844 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75041975175525 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05741435544244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.420989791298703 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.00994754405290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91443917031831 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61041612550663 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40429297943796 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31455521340655 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72506287222957 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29965458747147 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75095694741736 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05767562541426 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421054900962362 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01005877670342 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91447920232581 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61046492708031 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40434982788587 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31470152371070 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72533703739920 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.29987519693397 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75146853581462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05792553841804 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421117349908976 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01016469454870 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91451712616414 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61051148458809 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40440430133595 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31483962683586 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72559864448169 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30008083859112 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75195677145081 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05816494046082 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421177311118220 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01026577359371 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91455314331941 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61055596235363 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40445651780493 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31497054151182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72584867752024 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30027329689403 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75242355915712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05839453048983 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421234929404331 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01036244423281 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91458743772092 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61059850957169 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40450660615592 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31509482132124 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72608794348971 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30045398746812 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75287045612093 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05861489680166 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421290327173312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01045502103192 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91462015360434 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61063926656800 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40455467878391 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31521308763567 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72631713774649 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30062406271701 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75329879620091 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05882654684808 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421343613130667 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01054385558432 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91465145752487 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61067843575813 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40460087218943 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31532571609112 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72653683803575 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30078448941597 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75370967739316 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05902992570430 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421394882113849 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01062912203769 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91468143146541 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61071605548687 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40464526018448 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31543312311945 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72674754060323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30093607889858 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75410408445699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05922542676691 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421444219853302 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01071104000502 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91471016696694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61075219596726 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40468792019230 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31553560529493 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72694968868136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30107951744171 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75448290450886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05941341193173 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421491707107096 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01078984952312 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91473775219100 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61078694216488 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40472895073520 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31563344987606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72714368963383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30121538696913 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75484686919334 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05959420392834 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421537415212956 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01086563440883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91476422556211 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61082034605890 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40476840029597 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.31483573627043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.72686118556802 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.30191866052422 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 7.75392997944964 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05981456840791 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 0.421593888031322 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.01088918186771 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91478779891804 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61085323956065 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.40480707733170 at nshe,nfasti = 8 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 29587 TA= 5.90000E+01 CPU TIME= 7.94617E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.2226575000001 %check_save_state: izleft hours = 59.6980555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 5.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 5.900000E+01 NSTEP= 29587 Hash code: 114766986 ->PRGCHK: bdy curvature ratio at t= 6.0000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 59.000000 ; TG2= 60.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7820E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 59.000000 TO TG2= 60.000000 @ NSTEP 29587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 85= 1.26274E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 20= 1.30872E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33621E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 20= 1.30872E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34998E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 85= 1.26274E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 20= 1.30872E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33621E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 20= 1.30872E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34998E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.73362700000871 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.27663657557827 q( 3 )= 6.67650015043973 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9131E+00 8.4338E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 532.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 532.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 532.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.45973460369771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.27000205578811 at nshe,nfasti = 3 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 4 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81786345848281 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.49032229481708 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15891704008641 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12734 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.183E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.70171003714781 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15565511641473 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08794401966965 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.187E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03575003280256 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.33583680649040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41653281745781 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11401177569412 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07895599572271 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.48918024201203 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34275900242629 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12988895378495 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10055730046586 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54533646618876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49590286282472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13393630449224 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11427293513959 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.58978877189632 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52252843511394 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13739575460123 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12149084326685 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.62852203318507 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53151811359761 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13486848049533 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12371593097811 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61606712596457 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53468729022522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13347769642314 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12464228132805 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.63440481681924 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53714011580524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12845261574382 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12314554208097 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61036592268946 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53558725396205 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12586322254983 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12186223452432 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.62189788660825 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53496026029690 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12053438554113 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11916147184831 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.59454421660843 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.53135133228062 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11788838771220 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11724580190421 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.60384554916977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52995629105245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11306147062775 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11441248000782 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57710467846779 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52583843000088 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11094303783799 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11254641151387 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.58649503931144 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52450017465288 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10674391912951 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10988667620743 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56130166082323 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.52055664542858 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10526306353729 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10840316006835 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57157530942381 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51955598532063 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10164954950475 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10601328599834 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54802972134728 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51600218022577 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10075651609682 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10493658223431 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.55937647925337 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51543795472461 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09764917766217 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10286693136268 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.53729274519085 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51227630582808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09724267046542 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10214374135494 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54963661771752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51210645258903 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09455137876471 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10035638408468 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52877770403656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50930341250899 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09452599588761 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09993991376947 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54201322281595 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50944463475828 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09217082709979 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09839100516578 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52214200729814 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50692053232128 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09244013867869 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09821804397092 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.53610722809109 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50737609801623 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09035867429098 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09686294019956 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51701230267737 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50507145803716 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09085161902107 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09688520775946 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.53158570281792 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50578118988290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08898493748799 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09568881587151 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51312305427658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50365941612864 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08965326935850 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09588012970169 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52816092695773 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50457156646513 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08794406376915 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09479550797404 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51016825947353 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50258907877680 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08875182623713 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.340E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.059E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.188E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09510168612428 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.52558051036439 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50365849398263 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08715888099354 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 8.000002708286047E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 30087 TA= 6.00000E+01 CPU TIME= 8.01282E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.6312661111112 %check_save_state: izleft hours = 59.2894444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.000000E+01 NSTEP= 30087 Hash code: 80826346 ->PRGCHK: bdy curvature ratio at t= 6.1000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 60.000000 ; TG2= 61.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9770E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 60.000000 TO TG2= 61.000000 @ NSTEP 30087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.47037E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 22= 1.29228E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25355E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 22= 1.29228E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.21682E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.47037E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 22= 1.29228E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25355E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 22= 1.29228E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.21682E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.438E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.780E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.361E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.72422400000505 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 4.11503318183716 q( 3 )= 6.59910358098975 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9142E+00 8.4341E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %rfqlo: Pich * Pqlo <= 0, shell: 2 Pich = 0.520286173279429 Pqlo = -0.154294986732597 W/cm3 %fp_imp warning: RF renorm adjust = 4.52821921140231 at nshe,nfasti = 1 5 %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 warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 0.460528212881161 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 8.44097008287144 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.51333354386508 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 4.61976873026984 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 4.31869068265840 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.387663912002212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.86521491838325 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12734 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.438E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.780E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.92491772218206 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04864509381151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.34956997606636 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 3 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.45031879184388 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09689001882243 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.55943129980633 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.40098583626816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.67744154983895 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.86008794707201 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.60945041100507 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 7.41327530531244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.09515141736618 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24604003494733 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.18940408554300 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60369268767128 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.77460657148488 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41473573424083 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 6.33491225434839 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86370220322785 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.08051531169727 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07596063311832 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55689417249390 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70097888148519 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.31353479780492 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.76098972547595 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71439486646054 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.97156629909079 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.00213726851399 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52218210039662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64641482001049 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25336151882807 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.42580139345997 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61994588806154 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.89353000903286 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.95094042481633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.49538493415824 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.60831317951585 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21503015665210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.21331292009044 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.55781302051724 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83493694794750 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.91420342904245 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47419879405850 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58299461492508 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18989942497923 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.06965845603538 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51433670812740 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78971875354756 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.88744853713773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.45731979304633 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56638965211251 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17306808897006 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.96957024132551 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.48314516041634 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75425753564278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.86776737435300 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.44380391182398 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55595665785293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16177183092736 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.89780601104348 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.46053070538151 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.72600251188953 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.85333513821288 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.43306486151759 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.438E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.780E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.50861662352101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.26166047483598 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87190137214598 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72336937255568 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13200279220921 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05906281484649 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58150426960257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50771658104595 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24322233393558 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.78734633378471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71639452892414 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11497245204649 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04967925031740 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57138639274814 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.50811118319405 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23988295275104 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.75435997657324 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71064592994050 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10216538274384 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04547952615337 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56673714124435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51008410546449 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23900732716466 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.73257109292323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70752367440632 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09134244733402 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04323353747337 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56346936326362 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51333135656608 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23948218296158 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71872163969604 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70628467772951 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.08265642721675 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04240950632957 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56123522222877 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.51755762143600 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24090984711947 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71119383109266 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70669774243338 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07589254281266 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04273760170994 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55981193337108 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52253660835270 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24306515565367 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.70913541878542 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70843442893427 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07078253869907 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04400777817467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55910243407227 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.52810758167408 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24580113209039 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71153792532252 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71122933106972 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06694004620499 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04603464718967 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55899492926588 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.53414872260165 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24900106745521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71750723134174 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71484611920474 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06411052914299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.04868694131463 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55940496761808 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54056832529434 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25251940062158 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.72639944913910 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71912172104530 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06224236368054 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05182416200848 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56021084432161 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54725826619537 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25627163578502 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.73750023514096 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72389732772485 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06126897567232 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05536755081901 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56131837649905 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55415787286720 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.26025562986401 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.75047049697213 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72903901808932 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06103351299125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.05920650604034 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56278978423253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56118809439938 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.26441792148663 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.76486701895325 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73445123849041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06141830579257 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06327068430388 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56449416606707 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56829490717043 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.26871086837010 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.78038165926072 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.74007782960547 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06232463693235 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06753080446536 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56630250326904 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.57543793077329 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.27305722823015 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.79673609467560 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.74579819013937 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06360777213839 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07190465241089 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.56831652862501 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58257504896836 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.27746226246382 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.81370235583733 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.75157918158930 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06525236008179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07636333132567 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57044696200613 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.438E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.780E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.53717999841446 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10487175298099 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.50690172459665 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72743555065981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.06940400292345 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06070292454806 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58046712063817 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.54915157126302 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10134422156018 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.48433370133348 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73787328063401 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07020593299693 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06496821905549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.57958107166596 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.55459144395527 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10296161703461 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.48870475311476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.74345615358926 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07225233279219 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.06933024621505 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58148578804058 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56009040899140 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10562694646747 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.49823664407491 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.74869814209178 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07458103609148 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07377257287453 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58367196338149 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.56577435673269 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10873025584904 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.51024497987031 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.75394916316226 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07707389995187 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.07816602790710 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58593295625096 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.57155576770904 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11200960529520 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.52315136909389 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.75876896078141 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.07964061455933 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.08239237498581 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58819686034845 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.57737018853145 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11543470245036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.53750285679710 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.76424292835072 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.08232999638171 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.08660594637537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59043729672852 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58314097815775 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11889045984340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.55216584315502 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.76964382994431 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.08503644970819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09072241818775 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59263681176055 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.58882123250610 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12230335952560 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.56634243012968 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77439559508312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.08771681795692 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09466199537283 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59478663091192 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.59439496229373 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12569992456424 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.58063821514918 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77918557108699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09040860747600 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09850332871458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59688395236087 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.59984634943204 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12905437268063 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.59475037602519 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78383146723056 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09306620438219 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10222554773056 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59892408626440 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.60516266252899 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13235746854745 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.60858690656086 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78831779575328 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09568089690671 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10582532422754 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60090511732116 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.61033382867882 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13558065617041 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.62209428857195 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79264748979945 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09824417152335 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10930311536369 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60282633467148 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.61534947768178 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13870215914036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.63524452367832 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79681374587809 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10074833368610 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11265894339849 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60468744391677 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.62020528343091 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14174354279040 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.64801001711082 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80081448392345 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10318766056346 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11589275479174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60648763060644 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.62489920530116 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14470115690114 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.66036391076363 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80464822238325 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10555802919415 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.11900691975700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60822620651884 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.62942962235851 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14756539603514 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.67229453640391 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80831828119990 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.10785610757236 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.12200369348173 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.60990484481844 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.63379682659134 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15032427530442 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.68379586451796 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81182682955098 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11008002367076 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.12488557970177 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61152456634239 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.63800349729893 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15299754876854 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.69486428074293 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81519501159129 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11223903968142 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.12767408666152 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61302380175823 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64205161061303 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15558372255202 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.70549521570175 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81839914253118 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11431700851275 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13034551345156 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61452436067588 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64594355989933 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15807907665101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.71569516808914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82145089329880 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11631353631202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13290479935453 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61596965817299 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64968335436809 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16048924916152 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.72551070512219 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82435653655895 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11823182429283 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13535748672415 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61735952421537 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.65327261930319 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16281620370777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.73493433167328 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82712316815874 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12007332225868 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13770777482206 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61869481635883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.65671523403504 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16505959419275 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.74395743014917 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82975398038381 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12183964977938 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.13995930528082 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.61997651270447 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66001835530936 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16722024378632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.75258727708473 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83225297633109 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12353244440084 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14211548645400 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62120657952054 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66318596228589 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16930337186383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.76082766070885 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83462339875693 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12515333684856 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14417944729665 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62238640204903 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66622217971286 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17130972744555 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.76867641470220 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83686344589993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12670171814063 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14615351774501 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62351742862100 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66913154330955 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17324233542763 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.77615862226407 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83898561601415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12818226199884 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14804191349834 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62460157022055 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67191820620697 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17510344968036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.78329114161919 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84099761348137 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.12959713065489 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.14984814463037 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62564049440344 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67458631803236 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17689486705299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.79008768454556 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84290476763329 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13094830807405 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15157542870117 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62663539633251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67714015009746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17861857544420 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.79656051458893 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84471192309524 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13223776158932 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15322683592010 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62758770897682 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67958442951155 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18027681335461 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.80272139332352 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84642334077846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13346741407241 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15480533589087 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62849957025762 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68192403600006 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18187206025323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.80858144477974 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84804346475174 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13463943750083 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15631390510681 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.62937256490975 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68416314687145 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18340615645513 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.81414750778592 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84957303035768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13575509465536 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15775535245546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63020774957873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68630324593969 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18487952381469 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.81943459914284 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85101765714125 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13681668238724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.15913287509294 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63100655624803 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.68834990648266 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18629538244751 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.82445946640033 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85238417449839 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13782720274444 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16044948164043 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63177046284225 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69030722558857 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18765598105189 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.82923468362297 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85367703627437 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13878890641958 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16170718282853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63250009466172 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69217886442149 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18896333119804 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.83377172296632 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85489997220669 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.13970387191256 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16290853775311 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63319730641517 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69396850455601 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19021933786481 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.83808148034344 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85605662624817 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14057416850727 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16405602907689 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63386359649789 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69567968642558 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19142587462154 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.84217481159534 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85715066645454 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14140172401060 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16515200980508 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63450028592119 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69731569425209 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19258474145351 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.84606204644428 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85818532705457 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14218852331976 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16619871894066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63510878606105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.69887967973958 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19369765227811 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.84975269029808 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85916366179769 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14293639596236 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16719827672812 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63569034777340 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70037484139452 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19476628396792 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.85325559449114 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86008839758766 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14364717815695 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16815276780399 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63624614741435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70180468849916 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19579258685041 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.85657903326247 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86096255252075 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14432283153824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16906453358282 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63677740934999 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70317231018877 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19677836152853 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.85973430473661 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86179321210616 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14496492460824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.16993565781766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63728528157328 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70448020372765 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19772499460875 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.86273590714460 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86258041341353 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14557522166699 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17076800883990 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63777083266192 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70573086521525 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19863396208168 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.86559098509063 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86332555782616 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14615525963970 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17156342147943 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63823508432297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70692657812183 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19950665404188 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.86830247156006 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86403070293795 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14670643833315 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17232351607476 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63867900446223 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70806984502355 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20034446333967 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87087635930419 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86469794285193 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14723023473591 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17304967173442 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63910350597313 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.70916302768685 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20114975384873 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87331903976214 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86532913263178 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14772794346439 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17374366382047 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63950948108692 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71020821474097 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20192689607212 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87563696489433 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86592628857260 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14820032883687 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17440692623306 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.63989778216265 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71120736452000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20267272994505 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87783619432047 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86649123172926 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14864901392154 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17504041799791 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64026920587835 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71216255069601 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20338850388340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.87992240227095 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86702556501197 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14907531510684 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17564602658099 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64062452649391 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71307564228484 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20407534219439 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88190096133679 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86753076506853 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14948032782595 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17622452508206 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64096446986663 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71394845428072 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20473490688458 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88377724906467 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86800842591988 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.14986503957145 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17677757082493 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64128972016090 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71478271130801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20537162200003 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88555638880299 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86846006820163 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15023040127997 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17730632061641 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64160092968003 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71558002622485 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20598251958326 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88724334890175 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86888714533537 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15057734076271 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17781187611486 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64189872012508 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71634210634143 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20656866622250 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.88884275307241 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86929104458000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15090679741516 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17829449430896 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64218368097557 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71707048302520 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20713101930649 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.89035872297127 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86967292887049 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15121966426158 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17875595266408 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64245637288209 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71776652406318 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20767049429954 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.89179558121148 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87003405382595 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15151671698272 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17919723581480 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64271733221544 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71843171843943 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20818807162853 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.89315767727453 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87037562603114 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15179872554460 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.17961926923962 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64296707169482 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.71906749697568 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20868459077113 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.89444848634906 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87069835581433 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15206644907169 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.18002290210154 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.64320607884846 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.438E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.780E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.66241718182094 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02032270969324 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.46299410983210 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77633958076873 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04600870109991 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09572692733117 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59745302496306 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67126343987057 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01342012659316 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.42499639001887 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78102537220281 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04368047183922 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09698248995866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59364728563489 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67064573892665 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01134748224807 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41435495800320 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78124395940344 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04308911093663 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09737119670832 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59338621892305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66979028295674 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01029755655544 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40897269792805 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78121903380252 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04291104245215 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09776659731902 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59343095875163 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66921147293538 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00969837210130 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40612188415825 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78133127357844 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04286357113056 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09813840337417 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59356178781129 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66886595494557 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00934055179484 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40466876618659 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78153578306511 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04287681565200 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09848391070689 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59371053857755 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66868400876156 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00912800859341 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40403628843239 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78179216676252 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04292117468434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09880192740208 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59385497578301 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66861554895302 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00900783587978 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40389973015200 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78207354581418 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04298066343246 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09909294033672 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59398817475186 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66862446132128 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00894760066323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40406615009496 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78236349888380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04304625129039 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09935827488603 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59410865666256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66868457968106 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00892630550975 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40441659281939 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78265244903577 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04311292107925 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09960017608741 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59421707181810 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66877719042498 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00893052047825 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40487585953917 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78293500933241 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04317803093041 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.09982227288064 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59431501809943 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66888911560237 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00895132656111 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40539558362634 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78320825054356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04324033849337 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10002684746765 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59440389350381 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66901123237996 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00898148751011 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40594441119975 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78347071581194 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04329937810033 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10021595622110 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59448528896703 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66913736217616 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00901688200374 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40650196507184 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78372178455396 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04335512672320 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10039140432186 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59456047355389 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66926335274190 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00905479672360 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40705501661696 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78396130218639 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04340777762846 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10055474137886 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59463048964752 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66938649163880 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00909347856355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40759506230476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78418936937453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04345761255665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10070728700555 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59469618029246 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66950507340586 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00913182543384 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40811675065698 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78440514939286 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04350492983120 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10085016079512 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59475821256616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66961809122877 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00916917586861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40861685920608 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78461008122236 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04355000562418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10098431136141 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59481710574007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66972502010036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00920515964929 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40909357248684 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78480451281661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04359307979564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10111054484198 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59487325905787 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66982566283743 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00923960222257 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40954605249480 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78498879147954 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04363434838235 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10122954801608 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59492697686376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.66992004162003 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00927245485810 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.40997411532718 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78516326654449 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04367396563055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10134190906139 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59497848973698 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67000832340704 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00930374762539 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41037801770022 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78532828707325 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04371205028646 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10144813543993 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59502797231672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67009076206133 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00933355792338 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41075831465289 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78548419987837 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04374868644300 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10154866772465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59507555730948 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67016766651338 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00936198936824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41111575438106 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78563135028830 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04378393618835 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10164389255550 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59512134675855 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67023937256715 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00938915653547 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41145120732115 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78577008215048 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04381784401855 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10173415220886 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59516542075542 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67030622557456 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00941517595389 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41176561609310 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78590073525111 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04385044758129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10181975250537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59520784400985 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67036856871012 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00944016038103 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41205996206990 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78602364633439 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04388176340564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10190096924776 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59524867078710 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67042673486821 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00946421529503 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41233524152732 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78613915013999 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04391181025620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10197805339850 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59528794855463 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67048104185951 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00948743695505 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41259244784673 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78624757790859 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04394059774168 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10205123512634 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59532572059553 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67053178954268 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00950991167388 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41283255965015 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78634925684355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04396814001278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10212072709701 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59536202782449 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67057925840959 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00953171576758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41305653232907 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78644450908399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04399445213671 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10218672695055 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59539691000980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67062370694460 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00955291150445 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41326528833244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78653365185974 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04401955114545 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10224941935438 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59543040654851 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67066537536412 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00957355854800 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41345972011062 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78661699354526 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04404345629381 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10230897754268 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59546255691356 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67070448703308 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00959370761341 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41364068564780 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78669483533312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04406618936031 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10236556456096 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59549340091330 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67074124624186 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00961340092939 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41380900513848 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78676747034525 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04408777482548 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10241933425979 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59552297874824 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.67077583959410 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00963267378699 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.41396546027355 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78683518264751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.04410823975365 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.10247043211610 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.59555133098790 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 30587 TA= 6.10000E+01 CPU TIME= 8.00214E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.4604641666668 %check_save_state: izleft hours = 58.4602777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.100000E+01 NSTEP= 30587 Hash code: 50564286 ->PRGCHK: bdy curvature ratio at t= 6.2000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 61.000000 ; TG2= 62.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6300E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 61.000000 TO TG2= 62.000000 @ NSTEP 30587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.34181E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 24= 1.19136E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.53365E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 24= 1.19136E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.57957E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.34181E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 24= 1.19136E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.53365E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 24= 1.19136E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.57957E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.44573099999980 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.98131474006242 q( 3 )= 6.53898411465552 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9162E+00 8.4343E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.55354223788466 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11095251602160 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43358121181913 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.75336665909771 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13521252483608 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.26008011504709 at nshe,nfasti = 6 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12734 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.268E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.08420815596133 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.02730094925310 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16022956794153 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.15148061601405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.91121418620312 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.30726709642018 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.02586040368265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29620629257941 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.64450958981556 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.97778237999645 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.37121718712240 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.07550675185340 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.06254506138987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00276205302222 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41162911279571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.11058104012557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37016024148593 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.44127638970214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.02882796536413 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.44359910715458 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.13373462132228 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03074361725819 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.71679304329797 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.04735701085565 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46081935326361 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.15122771361517 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39819622858032 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.96329183543756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.06479671052688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47751890274488 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.16174513614258 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04511313026002 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.07532999647544 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48345066742509 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17024839627602 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40761605974107 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.08537993118600 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49234391403566 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17432459772426 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05045767071482 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09065254664292 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49271519635103 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17829624830035 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06019812869433 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09481922044035 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49539277541330 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18101694912712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06235057094879 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09768146521177 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49710930681861 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18255748874231 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06273193720115 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09942840637691 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49790810385604 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18325125565327 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06254038924574 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10044504972685 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49814245418706 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18343706149437 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06215238347473 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10099628600287 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49801021898148 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18329498644652 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06161437288887 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10120687994676 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49767819571124 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18297231575469 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06106596426072 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10119600417979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49722589200895 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18253569622882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06046723912837 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10103494489329 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49672271704600 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18205943458490 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05992793900857 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10080642187805 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49619431007838 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18155474620505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05937615545300 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10052611886128 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49568274958665 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18107908330602 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05890285263882 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.10024017696300 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49519511533005 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18060472565152 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05843037627558 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09995369191134 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49474878314351 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.18018259956057 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05804766031234 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09969537607020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49432906168563 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17978091824676 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05766553684366 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09945862231688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49395683406019 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17942899157094 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05736580311545 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09923635486804 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49361526546476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17910459917720 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05706484684799 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09905570834695 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49332223204580 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17882809796492 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05683244948992 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09888297921773 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49305025880086 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17857096417352 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05659725410651 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09874695613164 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49282360152176 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17835881887077 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05642842415960 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09862896517249 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49261775932557 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17815886297295 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05624298174074 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.535E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.525E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.270E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.09852307944074 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49244557964596 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.17799849656969 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05612244764471 at nshe,nfasti = 6 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 31087 TA= 6.20000E+01 CPU TIME= 7.66268E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.8655686111111 %check_save_state: izleft hours = 58.0550000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.200000E+01 NSTEP= 31087 Hash code: 97180676 ->PRGCHK: bdy curvature ratio at t= 6.3000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 62.000000 ; TG2= 63.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 62.000000 TO TG2= 63.000000 @ NSTEP 31087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.45201E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 26= 1.21257E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25355E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 26= 1.21257E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.19845E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.45201E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 26= 1.21257E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25355E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 26= 1.21257E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.19845E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.633E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.771E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.413E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.43486399999529 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.83178907748173 q( 3 )= 6.44762434265961 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9177E+00 8.4346E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.8 cm.B= 4.1980E+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 5 %fp_imp warning: RF renorm adjust = 2.88468304608007 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 5.91496499150672 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11844779015496 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11450698497849 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 5.44617200403941 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 6.09998734323511 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.52933562400361 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.44555611217241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.08666915246238 at nshe,nfasti = 8 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12736 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.633E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.41490478283896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31472350425004 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.17714392942960 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.49161860322921 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 4.12612576238481 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.95652084982166 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 0.460598632551358 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72016171954112 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27880050745021 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03287113393210 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 5.69681386609590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13982825334532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27884052122444 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.94884727929049 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86601361089023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.70100815412652 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61840992178668 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19759808063513 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.17595013259385 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03327768597824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.94344503969350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70542609067231 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.69547113749662 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.53569179166012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.54921367728492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14877908799130 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.84519224866695 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.78937719808708 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.57253318877751 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.60152754775644 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.45724487926661 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.50491144164104 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11471235630042 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.64225582543961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.71316621768814 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.49221793296908 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.54636996500830 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41319342875537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.47455261374082 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08921066181946 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.51471570599727 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67261936081602 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43858904498750 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.51179183178740 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.38732755087958 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45326377459977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06946568353580 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.43236792394916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64929128321111 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40081306744912 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.48791923900165 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.37160266431246 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43812771264060 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05406763061490 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.37725946359002 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63331053706989 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37361853469066 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.47172012130763 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.36301179083725 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42735034359427 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04202257442368 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.633E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.78876629414019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01391007878661 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30103484269267 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89879348612725 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80488420331975 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.56856045696377 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57777884801986 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19591556854547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.66269271330832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24809313117596 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87061516465871 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.76768559561518 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.53697970513267 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56219053077764 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18653255392837 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.63114759874889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23777757383694 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85828204155228 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.76924432037312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.53689180666139 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55869302134342 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18136388719786 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61665710922867 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23452875503287 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84982261039347 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77303585079253 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.54160722850623 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55704022951621 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17756654557381 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60761672989492 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00160489831716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23456465457384 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84380524787934 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77808502265608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.54830327391471 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55646443309176 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17480094268144 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60130735332353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00535680053306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23604753326644 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83960909784094 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78428980700810 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.55613316559182 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55674714445605 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17282854831944 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59739774403012 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00931791964476 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23910684106687 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83707998835093 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79166397420199 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.56515771093626 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55773957858606 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17150799762607 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59577894577065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01360572339284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24278792103452 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83575928934588 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79939990927577 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.57462007265321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.55925758685314 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17076483166480 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59578689346208 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01810108958387 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24702924320422 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83545196080649 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80781990996258 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.58448047944653 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56119532629554 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17048701605125 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59709279223115 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02269274572006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25130451333402 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83602930427510 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81674662247777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.59461661444274 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56346231057465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17059837037251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.59967924088440 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02738769924729 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25608753453843 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83739955437984 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82603561783629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.60487529367013 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56597468612839 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17102465786799 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60337849249145 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03214188974395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26127113498839 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83945745790694 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83557956164166 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.61518329171643 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.56867412500401 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17170456701254 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.60804629461818 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03693151006387 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26676738181254 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84208898025677 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84526994367155 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.62545688058093 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57151116503255 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17258880046991 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61354778128140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04173529051010 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27251900957267 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84519939929026 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85501760761915 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.63564776293079 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57444092424404 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17363348487358 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 4.61974770929418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04653077544997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27847390397399 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84870959709479 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86476220816862 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.64571080252945 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57742606287050 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17480056413366 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.633E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.48144969943011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13111141302410 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77031421698108 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.74941675618668 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.59138073898140 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59591449204478 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21179356401376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00431891914180 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.49500124918595 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.14730651381158 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77130604981678 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77203563896806 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.60004724222967 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59639088608137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21359711594175 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00556396841297 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.50681964554337 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.15714450465531 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77555196319969 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78192011764317 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.61048629761307 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59854007577548 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21480431956244 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00650024625137 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.51481243109306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00037693118704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.16425533837963 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77925744567902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79110618277856 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.62006650134747 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60110784001795 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21606633758105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00738582142706 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.52168827495328 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00463385280991 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.17021151849324 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78288752647772 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.79986557858897 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.62917583460008 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60380720216323 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21735176418934 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00826261169780 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.52802818560111 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00857840317849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.17578468113916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78660015101879 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.80826113848689 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.63791900412959 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60652593912707 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21865343424524 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00914296068143 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.53445535773237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01236475350921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18124851003826 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79042059945030 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.81634863814692 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.64634023306485 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60921151964490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21995788515457 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01002692493315 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54108279470562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01607156749361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18659037915396 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79432301646298 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.82414725066246 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.65443462062646 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61183588088957 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22125285794918 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01091091853229 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54784629608758 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01969605579968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.19187964982869 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79827514630183 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83166044891919 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.66220358396762 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61438497584378 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22252986585026 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01179093093205 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55470507269548 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02323721369375 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.19714686018048 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80224711684744 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.83889339226711 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.66965331206238 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61685059666558 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22378332294929 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01266278676665 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56161642351405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02669431007553 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20234738907676 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80620766371244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.84582691066599 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67676335037749 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61922729976756 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22500859952531 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01352205855006 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56850353329091 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03005564215103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20744293895151 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81013326820103 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85246636941951 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.68354995558788 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62151494571911 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22620073795193 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01436684962994 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.57533617219373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03331769332071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21242287760023 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81401202724383 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.85882881026104 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.69003173694949 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62371296871406 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22735850773359 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01519478350235 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.58208787418043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03647661339683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21728253097721 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81783145226324 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.86492007495412 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.69622004774993 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62582160011326 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22847973073178 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01600337060719 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.58873494412215 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03953117828940 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22201066603649 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82158126173948 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87078768821572 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.70212044007869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62784185586026 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22956344769379 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01679161012110 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.59525345522943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04248199876277 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22659916176883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82525135475826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.87641925501624 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.70773997685384 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62977441436489 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23060882370285 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01755816882291 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.60162998573878 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04533028335805 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23104175617261 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82883298418414 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.88179506660331 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.71308613362348 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63162053153595 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23161521826835 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01830190656382 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.60785864507111 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04807864447905 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23536399159507 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83232215498601 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.88692652917278 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.71816934595230 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63338220089873 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23258282749472 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01902211571083 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.61393543714311 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05072894377618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.23954602184582 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83572083754915 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.89182572212258 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.72300288005831 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63506252569513 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23351177603824 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01971832937599 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.61985196306927 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05328245972036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24356791295090 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83902155127828 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.89648941122013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.72759591632697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63666270163937 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23440221402454 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02039031693817 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.62560774382134 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05574147243676 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.24743754848124 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84222371459279 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.90092641156636 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.73195901697223 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63818503773598 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23525434048615 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02103797075333 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.63119313528309 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05810675896833 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25117008272111 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84532667712485 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.90514475103872 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.73610286151281 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.63963420555057 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23606947565757 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02166148254589 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.63660423005124 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06038050394613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25476396343356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84832843196664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.90915254587209 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.74003556271780 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64101297872312 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23684846240547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02226096992056 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64183983739263 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06256543306499 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.25819059080443 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85122852629882 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.91296211849885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.74376561193906 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64232360424890 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23759225567827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02283688234610 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.64690431158743 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06466535717580 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26145141916424 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85403277184546 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.91657776550039 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.74730236418059 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64356929701505 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23830218624845 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02338968695049 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.65180099138640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06668295919808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26457884445808 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85673933901276 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.92001054093218 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75065381389027 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64475174347523 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23897892413867 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02391979620998 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.65652798543608 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06862004863800 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.26756395149316 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85934795758195 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.92326467643997 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75382831937698 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64587392146804 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23962359989376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02442770952680 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.66108741514745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07047926871059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27041671140156 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86186265617437 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.92635498583195 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75683612449067 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64693871541644 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24023746616922 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02491397207185 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.66548932586258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07226518280443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27315179580498 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86428362455762 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.92929087765728 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.75968566228488 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64794903512978 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24082162002356 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02537918047666 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.66973535033533 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07397991614061 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27577282480227 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86661559228302 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.93207680860415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76238549890884 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64890787397807 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24137736177210 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02582409870566 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.67382439738803 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07562471007278 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.27828247826031 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86885776476043 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.93472208432980 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76494219661032 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64981744779912 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24190582126702 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02624938830419 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.67775675567325 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07720123046214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28068449628997 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87101359134553 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.93722449935952 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76736170112877 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65067975711509 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24240813073562 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02665569697354 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.68153384821515 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07871145633914 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28298093127067 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87308295654486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.93958925919726 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.76964989212117 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65149691252577 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24288532121288 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02704374663292 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.68515741498441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08015757969316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28517204974412 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87506715885571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94182211338733 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77181244877914 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65227101492558 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24333850470710 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02741421112724 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.68863537195187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08154271028105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28726356203777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87696953867621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94393191463558 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77385752820279 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65300449726320 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24376893962769 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02776781758225 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.69197513457671 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08286976414599 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.28926031280202 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87879115062226 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94592707974035 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77579122390067 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65369933006195 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24417761314828 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02810518302166 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.69517977290096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08414092038949 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29116548905885 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88053472373666 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94781421447629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77761893163485 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65435750610049 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24456559172116 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02842699020770 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.69825173243560 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08535788522482 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29298320245790 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88220524185365 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94958904119141 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.77934649611723 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65498110454555 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24493389186036 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02873392055828 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.70119615484023 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08652276883153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29471803898962 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88380551472371 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95125859326977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78097994811646 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65557197160068 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24528343404457 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02902660674787 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.70401872632426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08763780277348 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29637489996461 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88533824775874 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95283568790503 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78252454990655 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65613155646094 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24561512073303 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02930569552189 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.70671945799439 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08870444647926 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29795326127056 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88680621238211 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95432226750011 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78398317368567 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65666151538036 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24592986543167 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02957179948976 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.70931647613648 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08972698462823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.29945613881123 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88821194048868 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95572577756527 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78536081052440 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65716344551195 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24622849864296 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02982550045055 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71182008293227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09070824517875 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30089121649299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88955792881977 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95705247846752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78666417908620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65763876050549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24651178211418 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03006732532612 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71422263370012 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09164822851214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30226113307908 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89084701352262 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95830517078040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78789712004407 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65808891655723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24678051717980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03029781497240 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71652416490895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09254776247251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30356770800288 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89208101373212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.95948755904013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.78906308046036 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65851520661403 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24703543612379 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03051748256581 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.71872901505717 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09340878842079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30481376505450 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89326118595623 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96060378949838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79016577430936 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65891896369449 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24727726838167 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03072680133471 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72084274860886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09423339369782 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30600188280213 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89438928049839 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96165803388395 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79120856772210 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65930136818987 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24750666592844 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03092624858904 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72288589110623 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09502766521777 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30713465019843 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89546773578181 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96265335419265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79219449132463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65966353591049 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24772426147826 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03111629077480 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72484357822930 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09578819213128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30821410131234 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89649859958965 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96359236254996 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79312683626419 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66000655980634 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24793066803915 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03129737085424 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72671869957489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09651640890537 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.30924071172680 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89748357775102 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96447606313270 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79400867250541 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66033151149724 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24812648229187 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03146991941253 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.72851570444301 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09721400296136 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31021902089155 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89842480072013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96530943448160 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79484321032258 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66063959604071 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24831231653843 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03163435661158 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73023572304843 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09788174466519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31114990822020 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.89932461298233 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96609581355261 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79563296016077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66093162221822 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24848867037171 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03179105117878 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73188079257562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09852055259816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31203755236154 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90018479068664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96683740144175 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79638025194991 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66120839475755 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24865603962137 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03194039238655 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73345406828181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09913165913949 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31288407046389 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90100708976416 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96753750599809 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79708749439809 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66147074590536 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24881490744968 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03208274624230 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73495821541617 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09971620624998 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31368113505373 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90179293348944 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96819838537593 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79775681054959 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66171945381211 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24896572832435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03221845623488 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73639617409018 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10027530589597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31442513333499 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90254379988856 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96882214832663 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79839024117910 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66195525679799 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24910893369896 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03234784995729 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73777063213801 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10081003869853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31513433665032 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90326108805523 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96941079975116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79898945341772 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66217893056358 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24924495126675 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03247124341297 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.73908412805113 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10132136314721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31580991561392 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90394632143284 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.96996667718255 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.79955648499332 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66239107625917 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24937415375188 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03258892821042 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74033916697408 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10181032669314 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31645331471292 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90460084881111 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97049131792891 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80009318245738 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66259228141564 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24949688959608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03270117548516 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74153839244200 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10227790479011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31706646424709 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90522612692840 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97098651627883 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80060130383470 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66278315729676 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24961348218406 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03280820463170 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74268364531020 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10272490600886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31765077163134 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90582334155405 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97145402777989 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80108234007185 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66296422480866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24972426246343 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03291030313812 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74377733025795 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10315222034040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31820756960916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90639367870618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97189536376990 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80153771740746 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66313599136738 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24982953071746 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03300771139301 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74482189001058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10356075619321 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31873818528953 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90693831328882 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97231191751405 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80196886606276 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66329894570618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24992956942839 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03310065322335 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74581983125354 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10395143169533 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31924335764957 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90745876179949 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97270491756292 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80237702092256 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66345354271095 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25002464444138 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03318933964337 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74677336845976 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10432502483476 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.31972484873399 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90795683833214 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97307594212326 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80276350735717 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66360022578375 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25011500952758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03327397173979 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74768435911145 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10468232092040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32018365984031 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90843255224511 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97342600933993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80312940746185 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66373939963241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25020090007279 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03335473951813 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74855474086903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10502406981229 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32062080339773 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90888670444303 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97375616711615 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80347578700747 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66387144016594 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25028253707616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03343182285946 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.74938610198940 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10535088883119 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32103726241122 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90932022353371 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97406748667240 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80380367904532 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66399671171796 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25036013272195 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03350539303364 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75018003040596 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10566339563129 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32143395559842 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.90973400556749 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97436099929909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80411406093027 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66411555841673 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25043388756148 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03357561329233 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75093810871094 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10596220085361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32181179016626 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91012891750371 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97463766856415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80440786170794 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66422830762699 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25050399168040 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03364263839803 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75166162572384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10624781937036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32217154449115 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91050578357935 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97489843962587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80468594142611 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66433526938895 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25057062552790 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03370661579012 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75235207809002 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10652082333227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32251394185782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91086538539536 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97514412830797 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80494910913394 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66443673867707 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25063396108682 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03376768635775 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75301107478896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10678180879958 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32283977332828 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91120848985826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97537531767152 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80519817984127 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66453299708430 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25069416171159 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03382598442138 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75364004205458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10703131604850 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32314991507460 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91153583039412 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97559297496845 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80543391086444 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66462431101939 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25075138203843 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03388163779143 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75424031326730 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10726984832323 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32344501717956 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91184812760772 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97579792316876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80565701601838 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66471093253408 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25080576948465 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03393476842536 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75481295832842 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10749782045288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32372588188386 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91214606400113 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97599091231743 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80586817196225 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66479310175145 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25085746354214 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03398549232896 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75535934567741 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10771574287751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32399320415519 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91243028208295 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97617254928888 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80606800600659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66487104549235 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25090659757484 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03403392101270 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75588059657501 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10792404137008 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32424760786493 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91270140914506 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97634349809251 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80625712819260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66494497985780 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25095329781366 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03408015975433 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75637789480126 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10812315843058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32448969036083 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91296003746749 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97650433536838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80643611259357 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66501511127088 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25099768161080 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03412430849895 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75685285520157 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10831367024019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32471947360036 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91320672259910 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97665561226145 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80660551429975 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66508163794006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25103986519204 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03416646363648 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75730618230950 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10849582757774 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32493812704906 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91344204288080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97679788823604 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80676585100954 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66514474476435 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25107995958893 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03420671727957 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75773857966316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10866994582977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32514610937294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91366649155539 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97693165666340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80691760216125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66520460550410 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25111806822091 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03424515713179 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.75815118876019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10883644020973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.32534420317274 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.91388075755613 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.97705760572013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.80706148251589 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66526137508166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25115429379955 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03428187086494 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.633E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.53498089176144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01264765503079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.11083177454356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73908990247891 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.77344600558306 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67008704679416 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61751880856141 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22359743828552 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01509422614978 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55594968383718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01646263256999 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12994680682539 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73492342145159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78896465284715 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67037606638417 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61808746021691 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22551060826643 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01585053258820 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56363820060344 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01838549297803 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13525238213461 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73462464956167 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78945245577397 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67224375031952 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61728992401445 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22526824770007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01593220735489 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56364443692847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01863317458228 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13623087804507 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73363980207831 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78944148098391 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67290855314479 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61687056091079 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22506549173958 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01590026651427 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.56159473401867 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01833399785756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13573719262422 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73253722663086 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78936161314754 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67327261174957 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61664344141437 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22489793597748 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01583438403192 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55926218544709 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01790680538552 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13484999957495 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73152081546319 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78924270553756 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67354237536193 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61651261376004 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22475942535369 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01575890134872 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55712821236394 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01748654003305 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13394412925232 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.73063739486121 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78912300300859 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67377897470138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61643333478027 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22464263145679 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01568196883219 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55528021824399 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01710847587611 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13312585663930 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72987980825259 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78901921936276 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67399657087382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61638282313118 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22454199173349 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01560665419115 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55369710383238 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01677575287933 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13241067129930 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72922768430857 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78893495367219 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67420009998333 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61634920033259 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22445387647287 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01553434543258 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55233448396826 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01648240671451 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13178724716424 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72865909223824 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78886778306576 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67438981863918 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61632576811982 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22437590753422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01546574895620 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55115016449662 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01622128644486 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13123949633948 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72815623710254 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78881406842612 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67456536018765 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61630880357388 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22430652383124 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01540124273598 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.55010958563678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01598620461291 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13075290531263 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72770573671618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78877025611292 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67472648170091 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61629611400944 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22424459649405 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01534099585091 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54918616851358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01577239736624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.13031622428101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72729755317105 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78873449233487 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67487364988572 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61628648219664 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22418932209958 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01528504406851 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54835928717506 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01557621252314 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12992014844182 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72692431859143 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78870483641179 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67500745753248 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61627916170116 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22414003804786 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01523332327737 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54761301071152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01539488983648 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12955737855866 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72658063954723 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78867935291847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67512855382526 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61627364999546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22409616479566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01518569849379 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54693518074688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01522639785013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12922414130921 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72626236373951 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78865742158063 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67523793109879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61626960853534 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22405718112341 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01514198462652 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 4.54631613954892 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01506916168890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12891651866144 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72596634928814 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.78863840349333 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.67533657387088 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61626678499819 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22402260853624 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01510196557710 at nshe,nfasti = 8 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 31587 TA= 6.30000E+01 CPU TIME= 7.95361E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 22.6948558333335 %check_save_state: izleft hours = 57.2258333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.300000E+01 NSTEP= 31587 Hash code: 100377962 ->PRGCHK: bdy curvature ratio at t= 6.4000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 63.000000 ; TG2= 64.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7040E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 63.000000 TO TG2= 64.000000 @ NSTEP 31587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.19028E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 29= 1.33178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.54743E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 29= 1.33178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.47855E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.19028E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 29= 1.33178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.54743E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 29= 1.33178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.47855E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.92607999999018 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.67763439086129 q( 3 )= 6.34141805020078 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9199E+00 8.4348E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.24293973237880 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00534477210866 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.88983962972458 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86271333520154 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.62624307091169 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28187439200721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15944479552945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00580485249516 at nshe,nfasti = 8 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12738 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.13136930047462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17050977602101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.44762227723667 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04123713725914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.43100844603900 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70947344039838 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24297654286292 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10001331254811 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.64185555938535 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05836054764121 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.72242539497777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.28395467728826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66836563602866 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83461637855710 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27623835774808 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14153834069966 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.65354415557888 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05349168538304 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45775383872264 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06018828883229 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50216158990070 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.65196622743143 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20162955416510 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07558583055789 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.73584224786642 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08069941413315 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54117136633022 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11581370277681 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56178365728956 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71677640011284 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23984010944066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10354139755831 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.74711054445657 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08203284585249 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51498983124948 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08319185647762 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53060747069942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67319894389631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20201401271904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07231255498362 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 3.79250021176852 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09902696001959 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.56738864454175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11714772487535 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56916102977426 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71448381324999 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22764869256318 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09146122656761 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.80637724296732 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10323209923220 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54940898746632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09453257356779 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54691934349137 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68340455018696 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20125452888027 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06937424633764 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83305981069297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11232873172776 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.56365084655918 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09813185097886 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55141814135050 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68680300922987 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20073312614942 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06767379356393 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.85677795258606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12095141749735 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.57570286612222 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10152922316982 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55627348700988 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68936089009982 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19997467294166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06628796410448 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.87842748086192 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12890533377052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.58630635972641 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10437423331304 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56028651776167 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69133806454442 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19912754668133 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06496446871387 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.89824891698853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13623251250924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.59572307202722 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10673235652707 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56355458841938 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69284116733346 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19820639443984 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06366002138832 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.91630830076118 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14294306441557 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.60397458900200 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10866816911961 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56620340083462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69388062977424 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19722665066189 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06235037476002 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.93259639494362 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14904462907003 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.61122991689290 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11021861429519 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56831689868957 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69456495054423 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19620617041515 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06105405264082 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.94727841730173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15459928670320 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.61760368529086 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11145525393393 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56995224778170 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69494619309758 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19517210930916 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05979725559821 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.96042704041301 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15964276216450 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00313521307634 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.62319017154730 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11240583392949 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57119942574525 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69508231357756 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19412550847154 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05858411670661 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.97216280931013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16421428398622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00910619617286 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.62804619194080 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11313123829889 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57210249155509 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69502574802627 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19307804407332 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05741643492086 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.98263814677352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16836319869173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01453296157072 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.63226881565720 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11365685115398 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57272251875366 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69478824970639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19203654114138 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05629183877035 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.99192797457834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17209674895851 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01943025132606 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.63593178757771 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11401034027607 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57310211749938 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69440031739780 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19102649366016 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05522352293871 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.00017884939299 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17548734855779 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02388182948140 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.63907722280466 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11420764849719 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57325011218713 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69388174319431 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19002790038458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05419760689407 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.00745718480488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17854158197622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02789984895425 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64178524916965 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11427745799820 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57320904620124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69326321832938 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18905714218781 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05321762829928 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.01389754986215 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18130420845168 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03153795050571 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64410224548264 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11424962668791 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57304029018533 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69253001785758 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18810798701844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05228586648018 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.01955210542092 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18379488705938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03482287987590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64607092745994 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11413879989949 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57273509547651 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69170462843337 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18718567837922 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05139022877249 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.02451179653816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18603428035870 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03778339699113 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64773810175743 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11396482463079 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57234593688640 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69085128478645 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18628966154794 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05053682232430 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.02886531745325 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18805205771253 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04045672105730 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64914197134035 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11373960666024 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57188384482546 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68996702323816 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18542242320957 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04971797438145 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.03268087070946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18987584092014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04287809717376 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65031426841759 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11347526445474 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57136873992293 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68906823998090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18458151095077 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04893950078678 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.03603165463829 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19152415864316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04506910691328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65129155012908 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11317006415525 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57080008902257 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68816328710104 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18377354644149 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04819607955250 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.03894013933759 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19300448079619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04704181626662 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65209145363816 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11283539701187 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57020200663281 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68725624794934 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18299531441834 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04748443724883 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04146159155427 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19433374115125 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04881836361367 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65274148381296 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11249127044013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56957580161094 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68635360808330 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18225526054793 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04681303076962 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04365601534336 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19554206517007 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05043613019330 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65326087602258 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11212729838564 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56894208205116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68545944429400 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18154360869277 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04617171429348 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04554575402789 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19662759764207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05189410446712 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65366547883096 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11175673126888 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56829903006023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68458687963933 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18086577576117 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04556907171213 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04715132776859 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19759699238405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05320093826566 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65397362173752 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11138748323820 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56765134950848 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68373318516687 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18022072851864 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04499780583833 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04854171656596 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19848434210292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05439875462603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65419546968884 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11101137811551 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56700517468934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68290477916098 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17961075680520 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04446097614948 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.04970033402848 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19927788914028 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05547478854125 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65434437617934 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11063466891515 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56636435015340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68210851654049 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17903422501861 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04395468574086 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05067238794036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19998845096150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05644175416459 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65443235062003 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11026718598273 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56573407496639 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68134596529765 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17848779615238 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04348453838811 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05148797430832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20063963436368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05732978052381 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65446419213453 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10989960545481 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56512360612008 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.68061138749846 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17797026714508 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04304204111873 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05214830168322 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20121914492598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05812403190893 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65445103375534 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10954194676597 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56452570341685 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67991481683927 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17748702939333 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04263177576933 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05272702471043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20177497089761 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05888394672428 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65438882405418 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10919372206486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56395818784419 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67924798344887 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17703115678060 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04225091280608 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05315136899622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20225463942851 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05954818733369 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65430888661282 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10884166111600 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56340407545808 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67861632500426 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17660661239632 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04189408513352 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05349621756241 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20269543712667 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06015720179412 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65420320838242 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10850891930918 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56285919295827 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67801921977053 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17620854438373 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04156685833446 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05375684658248 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20308720645413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06070244994696 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65407872056311 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10817543554097 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56234316041557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67745880031173 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17584127510311 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04126115821252 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05394479516901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20344261967629 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06119908819966 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65393516467994 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10785754185350 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56184056877071 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67693132344751 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17549605446509 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04097703774180 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05408655195179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20377035118675 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06165652191028 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65377994067596 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10755507806407 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56136835904610 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67643172946442 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17517492376095 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04071484684433 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05416646957643 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20406735118475 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06207355275358 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65361299703709 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10725644937959 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56090346574982 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67596157872260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17487479933654 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04047255162213 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05419403949781 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20433612663160 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06245299419487 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65344099570003 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10696594320832 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56046609410996 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67552150000880 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17459646974586 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04024617613678 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05419233023195 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20458648650662 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06280677419597 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65326673010881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10669430066742 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56005276121373 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67510826467059 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17433763656326 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04003725666917 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05414580961363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20480654673352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06311937655063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65308408817559 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10643187269627 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55964891429967 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67471958372054 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17409815633999 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03984556672813 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05407249256434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20500880946152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06340882278678 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65290509179992 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10618096854781 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55927625462464 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67435778147202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17387465299989 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03966635149736 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05399441810900 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20520013688279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06368071777475 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65272681898005 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10593918537759 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55892076266427 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67401546877144 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17366669012397 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03950277411814 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05389522110838 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20537499529484 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06393082588293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65254853417498 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10570880187508 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55857426860823 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67369671987908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17347180371958 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03934882597045 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05377463531764 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20553030206300 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06415507486708 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65237682846606 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10549196493895 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55825957470759 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67339871513403 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17329278714926 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03920787570587 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05364646395250 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20567351778737 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06436200020584 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65221032626775 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10528249675242 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55794983209468 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67311968711842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17312714733773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03907756125741 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05352808281302 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20581467930567 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06456346156215 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65204737887176 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10508773635781 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55767177345261 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67286014354140 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17297288293120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03895819474474 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05338957843897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20593658062403 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06474058324098 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65188952008567 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10489598907105 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55740129787773 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67261889860083 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17282894637669 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03884620305169 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05326343723869 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20605678748339 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06491358531688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65173946603604 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10472070487065 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55715147753255 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67239457802164 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17269733275953 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03874430611741 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05312040759635 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20615740401377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06506078990639 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65159530226961 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10455580183190 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55691314190542 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67218361089722 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17257527178182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03865022927567 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05299279200661 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20625925343885 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06520644683891 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65145792017546 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10439647542160 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55668552503986 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67199091385198 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17246294599296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03856480409803 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05285343668839 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20634887023968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06533762460445 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65132682891077 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10424887951477 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55647061254475 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67180912059495 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17235775786174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03848316755658 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05272446492054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20643138200201 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06545820968981 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65120417502431 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10410771548076 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55627552029306 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67164425161398 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17226030885170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03841033837114 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05260270380249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20651124198629 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06557333824551 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65108642044613 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10398202459334 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55609576352675 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67148829736021 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17217163903125 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03834275863581 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05249697318199 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20659206804893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06568934186033 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65097542382918 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10385668942582 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55592503283028 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67134511701852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17208927433354 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03828088863864 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05236841507381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20665381458364 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06578045767139 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65086820565598 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10373825770007 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55576533854866 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67121273485561 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17201367746964 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03822343441548 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05226761446584 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20672405154280 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06588145674374 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65077076152185 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10363346271324 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55561629124593 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67108749481038 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17194291068554 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03817087025162 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05216576496022 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20678548443359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06596901103993 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65067912465145 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10352929634284 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55547143707909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67097489050133 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17187802510569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03812242413573 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05206655369689 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20683974267995 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06604834541687 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65059360939798 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10343786115487 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55534143806240 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67086885566176 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17181813628816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03807647942691 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.730E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.560E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.05197291539556 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20689110900572 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06612286468291 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65051274162555 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10334595094359 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55522164055086 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.67077189072489 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17176174372208 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03803704960315 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 32087 TA= 6.40000E+01 CPU TIME= 8.38364E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 23.4299388888890 %check_save_state: izleft hours = 56.4908333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.108E+03 MB. --> plasma_hash("gframe"): TA= 6.400000E+01 NSTEP= 32087 Hash code: 43772124 ->PRGCHK: bdy curvature ratio at t= 6.5000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 64.000000 ; TG2= 65.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 64.000000 TO TG2= 65.000000 @ NSTEP 32087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.14436E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 30= 1.23241E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.44182E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 30= 1.23241E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.43263E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.14436E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 30= 1.23241E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.44182E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 30= 1.23241E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.43263E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.827E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.956E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.90676600000006 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.57977713180349 q( 3 )= 6.28396624778609 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9215E+00 8.4351E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.13657787120160 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.99719762154037 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.02987840353566 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 6.48188022365717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07189649473613 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.90584457644668 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.52832702002247 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.58210077583638 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.03158744137590 at nshe,nfasti = 8 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12738 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.827E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.956E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.49655308936860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.91016542931030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 5.04406857815967 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.94875143586511 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77127539987077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59498117432348 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50609188775289 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65871268410989 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.79093616208589 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.82096395089614 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72948210808101 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70269453606184 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57208144120161 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47368964604250 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68671498253401 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.70683273760428 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.59291557333143 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57175384986638 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.65235678792138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.54577455014006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.44905779483873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69756400730765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64818577616336 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.41590787642223 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.48779921908934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.62056387904000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.52412262917063 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.42963226853869 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70370255181139 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60621959431422 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28406591206150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.43842530362067 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.59895952714395 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.50666964438627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.41383891496218 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70801519602106 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57544561533440 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18506433774123 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.40781426914024 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.58369060930347 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.49261068015650 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.40079714398242 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71283644588128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55302480508101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.10852244434124 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.38828615100958 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.57269175004113 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.48124391379186 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.38995682750494 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71754966541155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53607395313519 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.04745466980301 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.37556017511671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.56461637113118 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.47205667463932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.38094903369624 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72171764180419 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52264498811537 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.99778877091823 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.36734222705421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.55865373663872 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.46461332538053 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.37347241983306 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72551890933521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.51160911880918 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.95766917584748 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.36240342500545 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.55424748928195 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45862516502135 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.36728758196842 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.827E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.956E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.67374487954835 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.71002984547699 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.44348610391996 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56059295385866 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70985613536833 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.60341075706314 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47661207016252 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64587416570200 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.68793260105463 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.40517463617420 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56213622690313 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70333248516825 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59847263376196 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.47154984151317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64774121497890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.68170387191416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.39241313970904 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56249374993356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70258455484792 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59623506120467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46852871067487 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65056558819987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67791140403144 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.37889768578274 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56415761837069 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70218128965106 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59445864997708 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46617986540389 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65325633388163 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67516943182012 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.36632327328524 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56642875838027 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70208398157233 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59309271673228 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46434110962827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65567293392939 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67304107945612 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.35447061407002 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.56921155885733 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70228513191847 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59210589666075 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46293298443170 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65789327085608 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67134796294453 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.34397908906669 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57240291359510 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70276040540149 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59146296116159 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46190000748949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66000716783074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67002915900159 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.33418771371900 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57592533135697 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70347924421196 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59112583655697 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46119406785539 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66200083378787 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66904830686226 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.32576051745850 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.57972397899389 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70441098592225 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59106065431712 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46077640756690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66387144197277 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66836075158516 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.31856643507819 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.58375368612908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70553110099267 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59123317159948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46061006509645 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66564144109212 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66775347603206 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.31247930763930 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.58792405362622 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70681144805805 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59161269707869 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46066424875449 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66733628776503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66739225689403 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.30729240635147 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.59220283771929 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70822297561188 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59217294720278 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46091343053028 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66897911737295 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66727925071080 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.30284425588042 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.59661258918126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70975289817824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59289076455602 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46132993754876 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67059806578539 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66739789674763 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29921929194750 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.60110962972365 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71138421798280 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59374554535306 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46189475270772 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67222063980368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66773671618600 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29632218314674 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.60565642168902 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71309585118278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59471752727696 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46258983437823 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67382723984336 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66828842400675 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29401752824530 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61024957551688 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71487340731870 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59578827130741 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46339721273986 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67541774613731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66903205948500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29221509364292 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61485175351080 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71669873586765 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59694056804222 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46429679879003 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67712523794820 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66998097627035 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29103604023049 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61947506472707 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71855604490502 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59816102168910 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46527591437735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.67891477114202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67116256421464 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29046796608628 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.62410672773330 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.72044154528846 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59943789334009 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.46632487606457 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.827E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.956E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.64281360543851 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.59019589877660 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18556705157432 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61751118982072 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75173813963049 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64623308234442 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50488569200065 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65023499022228 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.59368510293783 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.17842649694891 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.60832213531987 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75135889604522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64743433380276 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50503217222109 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65238103244912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.59630801306314 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.17877048314682 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61167072707943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75308932520220 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.64905289800805 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50633235890116 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65346824066231 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.59827973353900 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.17993905248136 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61562091451770 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75488389572074 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65060173215991 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50767766070579 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65443250664897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60004529102516 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18148573996592 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61984373844206 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75671978435908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65210813786998 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.50902027249017 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65542694447281 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60175904071670 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18325291670552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.62412621070491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75856305654721 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65358681022623 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51035070666577 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65645395222238 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60347072396029 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18518781881779 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.62838073329301 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76038805244421 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65503998773115 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51166626026416 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65750518448371 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60520143422918 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18727350853234 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.63257125819199 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76218338157161 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65646766253054 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51296677085419 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65857340664573 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60693726111228 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.18949654214881 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.63668204433425 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76394394942319 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65787043683530 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51425196246691 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.65964041936558 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.60866230545915 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19183328546449 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.64070252939746 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76566697474068 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65924786711164 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51552117981735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66069801535605 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61040235955952 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19426811633377 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.64462750771239 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76735101485355 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66059978248866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51677304789476 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66174579214478 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61215434990916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19678876792361 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.64845444485666 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76899509513426 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66192571607137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51800763215173 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00005835344805 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66278050635756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61391452508362 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.19938151954150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65218062703720 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77059947876725 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66322508220175 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.51922413206048 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00053138020601 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66380105292895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61567958292747 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.20203519524316 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65580630419921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77216365848345 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66449799328443 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52042136830655 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00099679101861 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66480647007006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61744545298097 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.20473943784013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65933145114933 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77368769724951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66574438881913 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52159947940070 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00145616076283 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66579623261814 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.61920871241049 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.20741132327244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66275806817510 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77517288607942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66696436732768 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52275827392348 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00190924623409 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66676834415363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62096618562116 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21008830577496 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66608853788217 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77661962527673 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66815772256388 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52389729801275 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00235577030617 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66772327980969 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62271552365264 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21279432401199 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66932328230036 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77802802930915 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.66932424817548 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52501597379570 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00279543603714 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66866113267003 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62445459203156 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21552129435683 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.67246223512084 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77939757865021 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67046329643331 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52611369157727 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00322799005429 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66958203956769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62618071891435 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.21826033199029 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.67550833841023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78072666403996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67157560329437 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52719045134718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00365319986540 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67048532974095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62789114113673 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22100158143115 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.67846249568305 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78201886321242 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67266121624678 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52824582314453 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00407081600652 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67137104887085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62958345770110 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22373704011198 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.68132590555502 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78327444163338 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67372044974324 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52927946854534 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00448048454592 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67223943988839 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63125605055504 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22646207411257 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.68410010674941 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78449371996906 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67475301943782 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53029171823556 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00488211020482 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67309179338942 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63290808035347 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.22917169658047 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.68678594894741 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78567648094178 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67575877306904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53128203663179 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00527565086530 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67392801690733 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63453797003458 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23186231214134 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.68938431079689 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78682264361017 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67673755315633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53225001799238 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00566110674622 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67474696859593 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63614403816817 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23452934306615 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.69189780775268 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78793346808996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67768998257293 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53319613276270 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00603833376340 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67554784891499 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63772482483940 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23716763222552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.69432801024290 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78900988124370 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67861645032684 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53412034483996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00640727820334 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67633038305273 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.63927910767002 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.23977270484015 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.69667673164273 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79005137927915 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67951730187501 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53502269471949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00676784180170 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67709510095583 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64080639477073 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.24234240475096 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.69894512673859 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79105881538633 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68039297480276 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53590265384569 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00711985715116 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67784214270922 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64230583075261 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.24487394447760 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70113529886485 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79203347855559 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68124364972855 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53676095299528 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00746333476857 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67857123745190 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64377631412064 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.24736341648071 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70324845176819 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79297640337138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68206966604668 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53759774868394 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00779839847787 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67928267202312 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64521782229286 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.24981018718135 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70528655368124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79388826635794 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68287145271467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53841326622681 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00812509150572 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67997702715869 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64663027605887 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.25221350760019 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70725210016011 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79476979056799 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68364948154084 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53920780727758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00844347716149 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68065397952087 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64801310250583 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.25457164177530 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.70914697105304 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79562134383226 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68440412853175 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53998163625672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00875362563050 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68131268594001 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.64936550657025 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.25688424027350 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71097324520484 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79644302434007 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68513577242347 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54073500702105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00905562258610 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68194954639791 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65068556226210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.25915582739456 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71273247315343 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79723659467592 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68584508759684 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54146794349051 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00934952649780 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68256962459437 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65197558217776 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.26138315992748 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71442730752388 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79800280570783 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68653255726766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54218094516228 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00963546195463 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68317368048516 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65323610524259 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.26356381174001 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71605970022737 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79874245429921 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68719872775120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54287465843585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00991358739455 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68376170045221 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65446719393068 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.26569664978929 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71763156622758 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79945633094903 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68784411610924 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54354939627800 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01018402005226 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68433426542148 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65566943754423 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.26778113622345 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.71914460459499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80014518212291 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68846924813184 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54420550528976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01044688511816 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68489165500026 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65684297982304 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.26981707460924 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72060095318573 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80080978195662 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68907464034728 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54484336154552 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01070231899440 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68543403936650 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65798789263716 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.27180422753197 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72200254877750 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80145083583683 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68966082399537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54546336156523 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01095046775918 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68596169806824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.65910437088715 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.27374249420607 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72335120819504 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80206907139352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69022833158323 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54606590119853 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01119148410968 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68647489393397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66019265924968 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.27563202639436 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72464870301245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80266512422697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69077740061836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54665136175136 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01142553752551 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68697391824853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66125307559428 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.27747269065319 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72589731869853 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80323977033004 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69130868010541 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54722015428902 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01165279051757 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68745920943169 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66228579095042 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.27926423729607 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72709874587728 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80379385376684 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69182281679963 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54777269201960 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01187339975884 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68793097008697 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66329139829431 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28100814746562 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72825422210380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80432806692785 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69232035118792 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54830938397407 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01208753256158 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68838932592535 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66427053306206 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28270526465365 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.72936524999928 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80484306510238 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69280177877291 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54883060863169 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01229535032770 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68883466967117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66522345926435 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28435567027304 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73043352164711 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80533950930952 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69326758811279 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54933675537745 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01249700947799 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68926715083254 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66615068733846 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28596015878340 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73146060709727 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80581807805579 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69371827279196 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.54982822440646 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01269267147179 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.68968714870115 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66705276866469 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28751976429091 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73244772640664 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80627927158911 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69415427189589 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55030537392795 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01288249467604 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69009425442170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66792984718283 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.28903464653351 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73339641346401 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80672375915078 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69457603358991 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55076857644319 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01306664438296 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69048917418892 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66878242768941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29050594269518 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73430814134285 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80715217916034 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69498402322926 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55121821227741 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01324526868680 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69087268946722 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.66960857938139 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29193520429287 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73518439750568 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80756507213916 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69537866989036 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55165464057373 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01341851391894 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69124519446821 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67041170790537 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29332336894902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73602654927453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80796303321689 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69576038377265 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55207820715422 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01358652535902 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69160657862378 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67119236630666 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29467141663387 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73683574419827 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80834653425372 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69612956706925 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55248925422531 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01374944545801 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.69195737809209 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67195073108019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.29598014893080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.73761327412092 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80871607827123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.69648660879299 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.55288811936633 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01390741386006 at nshe,nfasti = 8 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.827E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.956E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.65472909920467 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55072911702632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12507194171743 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.67254577825710 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77337198143901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67114238558674 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52681231997818 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00524038973000 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66465043198069 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55485873556287 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11494796555115 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65550628262335 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77435825704677 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67275572027300 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52615165320196 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00498735984599 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66610232156328 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55675464438334 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11317378809213 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65472789841033 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77437963244252 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67309360483906 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52633892178317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00502085080964 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66613137194625 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55744276629409 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11243059731657 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65456074250835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77444384163102 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67335992569074 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52660674035789 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00511404125518 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66603965144035 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55775805843263 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11214519642067 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65478709484294 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77457482548833 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67360468367244 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52688856229870 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00521506358218 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66600231324821 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55797184736782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11208125890349 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65517313676823 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77474057760955 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67383724030718 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52716484317246 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00531139378458 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66602143210347 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55817231059126 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11215241735610 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65562647950819 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77492107937119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67405862109529 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52742892802060 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00539995229042 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66607714728531 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55838331485189 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11231549646375 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65610511304243 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77510505759275 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67426862297212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52767895043626 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00548069478112 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66615479739375 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55860766496139 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11254292202040 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65658886347722 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77528657128186 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67446730068533 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52791494454675 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00555448333643 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66624530735938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55884203267257 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11281452114938 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65706690798918 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77546269393479 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67465510184511 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52813768143187 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00562234184379 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66634303780212 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55908201166731 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11311532448217 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65753333998712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77563218158626 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67483274084596 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52834818779098 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00568522098119 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66644452073509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55932373902836 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11343428284227 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65798521591382 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77579471121242 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67500106554784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52854754171341 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00574393962382 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66654757084509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55956426888793 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11376320334127 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65842113351463 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77595043371900 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67516095357420 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52873677915102 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00579918340514 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66665082276188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55980150857936 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11409626715421 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65884060027856 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77609972115712 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67531324647897 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52891685287516 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00585151933254 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66675336438836 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56003408154345 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11442936363338 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65924363084622 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77624302377052 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67545871333365 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52908861978886 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00590141431228 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66685460820039 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56026114455210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11475955298859 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.65963055207110 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77638080350902 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67559804146383 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52925284241532 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00594925042564 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66695417696464 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56048216846250 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11508476751042 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66000140573555 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77651348201235 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67573182693080 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52941018905311 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00599533878127 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66705183580909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56069692720217 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11540368198034 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66035667286965 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77664144992877 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67586058621344 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52956124831399 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00603993195321 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66714744232721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56090544410804 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11571554823569 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66069714632368 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77676507093113 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67598476746247 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52970654217585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00608323417995 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66724088764137 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56110778548019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11601980463895 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66102373393269 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77688462569577 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67610474465675 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52984652086715 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00612540789545 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66733208229582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56130404953077 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11631609753694 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66133708088580 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77700036555367 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67622083342614 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.52998157870721 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00616657669963 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66742097323928 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56149437755176 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11660416655253 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66163774566806 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77711251465438 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67633331013784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53011206261298 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00620681194535 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66750762813324 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56167900776987 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11688417137710 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66192624737569 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77722122536909 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67644239181392 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53023827343022 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00624622688045 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66759193920488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56185816667593 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11715617354147 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66220306459135 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77732663822509 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67654826308862 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53036047499190 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00628488233324 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66767407689685 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56203208221820 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11742035758621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66246867106506 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77742888711480 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67665108142323 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53047889717409 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00632282292603 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66775403674257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56220092784415 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11767688160523 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66272349310207 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77752807369763 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67675097997646 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53059374304081 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00636008101055 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66783185211979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56236490496448 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11792593135060 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66296794273065 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77762428813012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67684807485981 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53070519401236 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00639667994850 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66790758856359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56252422119395 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11816771187937 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66320241952656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77771760957149 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67694246692197 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53081341286122 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00643263607269 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66798136540082 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56267907053616 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11840246905684 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66342756628355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77780797924299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67703423680796 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53091855005893 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00646796256541 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66805314384604 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56282960515355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11863034428409 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66364347411375 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77789560620908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67712347513126 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53102073456958 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00650266516692 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66812293524540 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56297596699570 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11885152566057 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66385048203453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77798054833013 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67721024856202 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53112008174675 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00653674686092 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66819076929982 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56311829027173 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11906619797069 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66404891292884 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77806286266117 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67729461892690 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53121669654470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00657020874512 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66825678097743 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56325675669629 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11927454748021 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66423908329421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77814260432472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67737664404200 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53131067553053 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00660305076944 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66832099672455 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56339150162962 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11947679814815 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66442129087164 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77821982589023 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67745637780494 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53140210799694 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00663527223055 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66838345731575 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56352265401796 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11967316386041 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66459582924314 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77829457974364 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67753387219481 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53149107644075 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00666687242054 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66844421005788 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56365033552387 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.11986383389311 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66476298339165 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77836691867105 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67760917714189 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53157765771906 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00669785065677 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66850330283569 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56377466036621 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12004898391923 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66492302887164 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77843689415434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67768234108509 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53166192401097 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00672820668342 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66856078314446 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56389573578446 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12022878057116 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66507623198257 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77850454133301 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67775341149967 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53174394345757 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00675794072190 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66861669547975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56401366258344 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12040338345470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66522284696686 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77856993397875 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67782243498042 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53182378046347 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00678705366587 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66867108274485 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56412853603091 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12057294552561 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66536311107889 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77863312442370 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67788945737695 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53190149622130 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00681554715538 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66872399181637 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56424044878761 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12073761301303 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66549726575806 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77869416532819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67795452394810 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53197714908437 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00684342361162 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66877541523731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56434946832804 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12089754413206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66562555382808 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77875311146772 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67801768024650 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53205079527223 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00687068625931 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66882542668413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56445569003517 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12105288160528 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66574820853515 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77881001820732 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67807897162809 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53212248875856 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00689733911269 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66887404332872 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56455920255755 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12120373624447 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66586544833950 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77886493991816 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67813844273365 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53219228150808 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00692338695920 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66892131368798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56466008715810 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12135023484038 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66597748566126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77891793030838 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67819613797496 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53226022373062 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00694883527558 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66896731628924 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56475841625895 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12149251155197 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66608452872738 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77896904341711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67825210202767 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53232636419106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00697369028475 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66901208800136 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56485425675374 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12163068377455 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66618677635531 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77901833246383 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67830637843610 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53239075003653 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00699795877441 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66905566318472 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56494767413586 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12176486479767 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66628442035227 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77906585004136 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67835901004959 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53245342666477 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00702164826766 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66909807581528 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56503873203738 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12189516508619 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66637764617154 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77911164865741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67841003995709 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53251443869028 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00704476657194 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66913935879911 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56512749220782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12202169286167 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66646663335229 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77915578051057 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67845951097178 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53257382967980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00706732199168 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66917954452576 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56521401409544 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12214455249731 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66655155382447 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77919829718331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67850746525442 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53263164181368 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00708932324861 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66921866449646 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56529835532214 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12226384565261 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66663257519230 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77923924920004 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67855394445095 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53268791640606 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00711077948850 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66925674916674 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56538057179902 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12237967127173 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66670985954076 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77927868675055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67859898967591 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53274269376860 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00713170014892 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66929382804744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56546071774205 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12249212572576 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66678356237787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77931665899297 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67864264146375 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53279601323768 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00715209496270 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66932992961654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56553884567332 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12260130272359 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66685383356808 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77935321412561 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67868493962782 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53284791310101 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00717197382101 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66936508148432 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56561500659082 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12270729352333 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66692081760997 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77938839941563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67872592326427 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53289843056131 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00719134677069 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66939931039922 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56568925005273 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12281018701579 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66698465372111 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77942226123454 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67876563095700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53294760242855 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00721022408477 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66943264216876 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56576162419323 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12291006967618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66704547584505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77945484476458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67880410038123 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53299546436947 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00722861607351 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66946510185648 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56583217576801 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12300702546229 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66710340521387 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77948617244537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67884136535163 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53304204999693 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00724653295053 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66949671377802 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56590094983900 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12310113525728 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66715856784083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77951630040698 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67887746329987 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53308739353958 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00726398515606 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66952750111189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56596799021380 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12319247812965 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66721108588139 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77954527809916 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67891243070166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53313152858314 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00728098313472 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66955748644346 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56603333992957 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12328113186044 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66726107521367 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77957314734841 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67894630252140 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53317448774610 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00729753729557 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66958669178120 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56609704111133 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12336717241728 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66730864655788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77959994841574 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67897911275417 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53321630277897 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00731365799973 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66961513838488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56615913471288 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12345067363686 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66735390195140 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77962570916924 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67901089282328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53325700394178 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00732935540803 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66964284696568 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56621966051743 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12353170697887 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66739694028441 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77965046217989 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67904167382216 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53329662076385 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00734463960346 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66966983749243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56627865714356 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12361034195060 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66743786328887 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77967425821618 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67907148876333 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53333518295612 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00735952070177 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66969610753266 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56633615368959 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12368665248501 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66747676347419 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77969713364634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67910036860771 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53337271939723 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00737400865711 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66972168006850 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56639218821667 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12376071063467 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66751373254650 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77971912354994 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67912834342052 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53340925823847 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00738811330659 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66974659049523 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56644680395864 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12383257864864 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66754885937062 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77974026157330 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67915544226565 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53344482676561 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00740184434954 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66977085791131 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56650003758980 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12390231576754 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66758222653900 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77976057968458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67918169316944 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53347945143534 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00741521127077 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66979449958513 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56655192395408 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12396998208598 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66761391325760 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77978010877858 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67920712332196 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53351315800375 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00742822341158 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66981753211509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56660249676750 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12403563697435 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66764399552499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77979887874490 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67923175911995 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53354597155233 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00744088995924 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66983997154430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56665178876928 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12409933842590 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66767254611549 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77981691840254 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67925562610722 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53357791642841 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00745321987543 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66986183352550 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56669984084764 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12416114303579 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66769963482223 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77983425562599 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67927874908516 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53360901635199 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00746522196931 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66988313318500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56674669608019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12422110599672 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66772532856166 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77985091734993 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67930115212473 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53363929442692 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00747690488339 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66990388511494 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56679236396601 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12427928101200 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66774969136418 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77986692950325 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67932285849680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53366877307596 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00748827702868 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66992410393510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56683687385736 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12433572031671 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66777278448574 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77988231712963 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67934389078627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53369747414827 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00749934666091 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66994380357844 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56688025458306 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12439047460071 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66779466651887 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77989710434255 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67936427084363 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53372541887475 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00751012183128 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66996299765284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56692253434084 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12444359302931 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66781539367206 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77991131456261 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67938401990533 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53375262794726 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00752061043350 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66998169930417 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56696374066314 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12449512375702 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66783501949321 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77992496999319 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67940315838353 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53377912141004 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00753082012721 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.66999992137129 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56700390045500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12454511353307 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66785359534608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77993809216375 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67942170608045 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53380491878074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00754075841348 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67001767635966 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56704303999470 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12459360783434 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66787117039572 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77995070185449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67943968220020 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53383003907469 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00755043262896 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67003497634430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56708118487667 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12464065079728 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66788779159020 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77996281902347 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67945710527488 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53385450073476 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00755984987989 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67005183313311 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56711836009100 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12468628536049 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66790350388103 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77997446291181 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67947399325683 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53387832171294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00756901711644 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67006825824897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56715459004332 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12473055328702 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66791835027179 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77998565205418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67949036353324 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53390151948510 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00757794113214 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67008426283141 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56718989850266 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12477349508812 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66793237178567 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77999640421409 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67950623285730 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53392411098267 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00758662849981 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67009985777102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56722430868893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12481515017674 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66794560769343 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78000673651717 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67952161745878 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53394611269179 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00759508564474 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67011505367938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56725784328261 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12485555688495 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66795809555451 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78001666545570 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67953653305462 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53396754066278 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00760331884404 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67012986081266 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56729052435698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12489475236826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66796987117245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78002620682138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67955099477877 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53398841044047 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00761133416308 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67014428921087 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56732237347245 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12493277276383 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66798096881538 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78003537583686 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67956501729190 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53400873716203 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00761913752928 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67015834866243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56735341168821 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12496965320958 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66799142124874 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78004418715890 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67957861479112 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53402853556602 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00762673473156 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67017204862668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56738365949337 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12500542774750 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66800125968425 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78005265480915 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67959180093877 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53404781992168 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00763413135743 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67018539836977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56741313690114 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12504012948091 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66801051399190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78006079230437 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67960458897125 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53406660412619 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00764133286668 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67019840693014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56744186345907 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12507379059289 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66801921272579 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78006861265771 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67961699170766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53408490171279 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00764834459122 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67021108303861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56746986603007 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12510644224761 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66802738306559 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78007612830783 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67962902147750 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53410272577945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00765517167198 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67022343516218 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56749716819481 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12513811477773 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66803505105579 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78008335125237 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67964069022970 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53412008908583 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00766181913299 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67023547159298 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56752377512748 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12516883770153 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66804224160212 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78009029304699 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67965200954074 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53413700406119 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00766829188118 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67024720053829 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56754970426475 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12519863952908 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66804897832086 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78009696471995 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67966299053822 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53415348273059 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00767459464314 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67025862990362 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56757497277521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12522754793391 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66805528381366 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78010337690182 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67967364400631 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53416953681007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00768073203872 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67026976741727 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56759959747462 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12525558983580 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66806117969085 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78010953982851 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67968398039336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53418517771370 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00768670858078 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67028062053369 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56762359471924 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12528279128941 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66806668649472 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78011546326851 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67969400973818 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53420041648072 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00769252861203 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67029119656460 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56764698050599 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12530917765520 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66807182390399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78012115665747 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67970374178547 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53421526388006 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00769819638612 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67030150260902 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56766977040108 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12533477349887 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66807661065384 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78012662903128 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67971318593207 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53422973036057 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00770371602227 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67031154563893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56769197962457 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12535960272176 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66808106467751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78013188911335 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67972235130073 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53424382611711 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00770909155550 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67032133236940 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56771362296706 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12538368843586 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66808520299253 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78013694521570 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67973124665002 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53425756100512 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00771432686330 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67033086939590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56773471487743 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12540705311403 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66808904189024 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78014180536378 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67973988047875 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53427094463491 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00771942573936 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67034016315849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56775526946992 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12542971860037 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66809259693653 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78014647729026 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67974826102997 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53428398637642 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00772439189292 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67034921986090 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56777530045179 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12545170600534 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66809588288857 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78015096835707 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67975639621364 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53429669528450 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00772922888506 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67035804511346 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56779482095605 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12547303586353 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66809891388223 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78015528568480 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67976429371239 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53430908019397 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00773394020230 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67036664474988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56781384329214 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12549372405624 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66810170466406 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78015943632375 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67977196102808 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53432114974124 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00773852925819 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67037502487919 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56783238081184 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12551379378398 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66810426679641 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78016342669690 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67977940530129 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53433291224403 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00774299932312 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67038319116309 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56785044603792 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12553326378596 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66810661242268 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78016726304188 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67978663345797 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53434437581897 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00774735360135 at nshe,nfasti = 8 5 %fp_imp warning: RF renorm adjust = 2.67039114918332 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56786805116979 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 4.12555215229936 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.66810875320948 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78017095140802 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.67979365222654 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.53435554838537 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00775159522860 at nshe,nfasti = 8 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 32587 TA= 6.50000E+01 CPU TIME= 8.35176E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 24.6900463888890 %check_save_state: izleft hours = 55.2305555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.500000E+01 NSTEP= 32587 Hash code: 109369586 ->PRGCHK: bdy curvature ratio at t= 6.6000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 65.000000 ; TG2= 66.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8710E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 65.000000 TO TG2= 66.000000 @ NSTEP 32587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.07548E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 32= 1.24856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.43723E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 32= 1.24856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.41886E-38 RESET TO ZERO !trf_finish_transp: NCLASS bootstrap current restricted due to rapid change in r/a %MFRCHK - LABEL "BALE0_SGF", # 87= -2.07548E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 32= 1.24856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.43723E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 32= 1.24856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.41886E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.91021099999489 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.49364562481291 q( 3 )= 6.23881430860300 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9233E+00 8.4354E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.86921862527423 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.33434721917964 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.63429182606295 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66913813915895 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.36198707948763 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26938540923418 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12738 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.898E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.46744498294765 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.06044351338400 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18211264164990 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05857564068150 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.59566763638885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14204837040470 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15962920300553 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03032544257248 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.97941020764685 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24943687533942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16687891600655 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03822260208221 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.24109796022763 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19834703418355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17971176006176 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04457763684878 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.28694865709253 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.29207808624611 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17945937428545 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04750155355001 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.54752989283242 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01664781801129 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.22838802652296 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18832574432574 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05070968070845 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.56015002539347 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00228549371933 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32050500860276 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18469379373897 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05127813913549 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.79831768394704 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02678743813066 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.24787274825996 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19117223976908 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05283345167240 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.77576924747812 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00942787667313 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.33941202144852 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18560529852673 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05218403714239 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.99152169422740 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03148648392474 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26074953202557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.19077405868671 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05287282748527 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.93913506940946 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01244678094720 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.35142918912477 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18414844750820 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05155958767280 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.13505333561780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03292852278121 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.26901885357943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18863253980138 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05176819455471 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.06046530783825 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01287429034298 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.35855150020904 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18144572585354 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05008585966725 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.23906636285730 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03253533968578 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27387371675600 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18569398483711 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05006401197932 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.13928649044799 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01188441115968 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36238015665686 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17823658474293 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04820350730733 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.31204239679467 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03110139617842 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27659564963391 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.18245543885970 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04810115574140 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.19985019036760 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01021345711922 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36397099356268 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17495795498560 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04616646108687 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.36379121422676 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02911942429214 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27793185335241 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17924438859951 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04607159022614 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.24168791495430 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00823573388867 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36426963961179 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17183974077321 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04416145422509 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.39950678738939 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02695168646162 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27837562606805 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17625623161901 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04413178785246 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.27060921062412 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00618784884084 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36383774336059 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16899234074569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04229820062368 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.42407841897857 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02483819604569 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27827256153775 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17356402184348 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04236231421547 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.29046884644645 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00418336360794 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36294889285649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16644151193269 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04062465300511 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.44073318883360 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02286525170754 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27787240467887 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.17118810473617 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04078853318371 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.30397267677058 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00227905612128 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36186541772100 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16422556138308 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03915144172909 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.45194141077053 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02109900653725 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27728650904654 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16912902652531 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03941326565031 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.31307393956716 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00051536084398 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36073811190536 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16232428205850 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03787592252881 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.45944238832165 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01954511533901 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27663514336649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16736704294348 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03823343584697 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.31920126850153 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35966244716852 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16070575298465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03678941605652 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.46437138728034 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01815242057898 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27599152629732 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16587625712498 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03723415547589 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.32328646987223 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35867130260650 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15934695604449 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03587187258315 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.46755736881572 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01688304624354 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27539100838103 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16463716069395 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03639632684453 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.32595532708813 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35779233524035 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15821256959364 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03510685117442 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.46961117290629 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01581377661670 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27484880622999 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16360239517954 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03569762630204 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.32773420555942 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35702365275409 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15727205882522 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03447025164582 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47093704331007 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01491992804493 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27437188594962 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16275181503898 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03512236943877 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.32889290577426 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35636049394303 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15649704016650 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03394950027270 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47180834580501 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01417694978959 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27396016290886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16205039020329 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03464872381943 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.32969831706829 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35580294761064 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15586070076817 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03352456044581 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47237422990753 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01356850715742 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27361208616577 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16147889707025 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03426391987517 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.33025044243779 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35533694120871 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15534096682566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03317592574266 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47276642791891 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01306476947596 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27331933643458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16101157182835 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03395071177969 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.33060834454801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35494889243131 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15492209127120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03289080381039 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47300975242338 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01265607531940 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27307408841645 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16063167625038 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03369907318129 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.33085856629392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35462963930601 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15457963066853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03265909185282 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47318155189631 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01231825120711 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27287185923878 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16032219679169 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03349460101522 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.33104797866529 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35436592666675 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15429871602546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03247215855538 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.47329095943920 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01204655120777 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.27270575398260 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16007524993771 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03332793880414 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -4.925E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.492E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.33118682106968 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35415284015512 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15407548387701 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03232168726291 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 33087 TA= 6.60000E+01 CPU TIME= 8.34805E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 25.2845244444445 %check_save_state: izleft hours = 54.6361111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.600000E+01 NSTEP= 33087 Hash code: 50699721 ->PRGCHK: bdy curvature ratio at t= 6.7000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 66.000000 ; TG2= 67.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1330E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 66.000000 TO TG2= 67.000000 @ NSTEP 33087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.01579E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 34= 1.36739E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.46937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 34= 1.36739E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.51069E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.01579E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 34= 1.36739E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.46937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 34= 1.36739E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.51069E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.022E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.632E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.895E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.46442600000591 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.39712328624279 q( 3 )= 6.19105543351786 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9247E+00 8.4357E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 427.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.46075435991984 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.83304388175224 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.61983613069621 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.48513245230545 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 3.24871937555652 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10404307230904 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12738 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.022E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.632E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.26798150353148 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44810214028456 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.06942069562628 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.01271330268318 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.11258943251541 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.89493251083281 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14404415998532 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.24294070900128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23889817044450 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81935401040080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.82372373447821 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96223195102481 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79675576124714 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09844290808449 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.20969182179542 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15420234890565 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70937690548763 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72323927330658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.87487297572103 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73368612157717 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06736529828984 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.17593350214928 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10454632496144 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64848410356030 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66330320382598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81667970884864 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.68820583164120 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04404218013713 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15272008330453 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07450498995075 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61108822871481 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.62518407607190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77607760182129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.65460927577327 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02557240490011 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13764992880645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05648967294948 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58652343057187 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.60037250182897 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.74740069878553 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.62968663685762 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01063630932339 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12798438288544 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04623763426266 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.56980072601171 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.58433768125957 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.72713059853008 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61126796624405 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12287066369688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04075951165983 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55887361258109 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57382205376959 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71283852915936 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.59774796603759 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12229842837781 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03790424246346 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55188830376995 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56700282416359 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70296171224831 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.58797912647664 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12418136940026 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03783366589044 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54762174034207 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56266971141951 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69634382961478 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.58114204870965 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12620156084308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03958576318276 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54542031895041 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.56006031487906 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69214237195337 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.57658959429746 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.022E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.632E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.12827144372340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25731303462333 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84222997273487 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86709550251573 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96056809556630 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71573488984115 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07901502503313 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11773559786806 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.24183536973941 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82131272184213 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86256634779873 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.95851327079801 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70815625181577 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07398272408059 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11742551673120 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.24479962084895 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82098152199206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86306748254006 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.95840754730751 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70710383518059 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07092251763366 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11846625533494 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.24937499643693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82240013437298 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86408013320793 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.95956887168536 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70767080070801 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06867057551452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12047017736224 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25468706977896 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82473335023703 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86555846631807 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96144922444001 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70911062090572 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06699671451187 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12307456605508 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26030890699355 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82754999271120 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86752789430831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96390042402285 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71116844779047 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06577954267503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12606263224858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26610847260635 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83068867505252 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86987546694393 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.96682365304143 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71370124295318 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06494005491509 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12939790305042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27178779888577 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83406657660524 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87250583712121 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.97017760876582 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71661304726418 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06441604530735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13301718540570 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27737467724900 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.83760193057994 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87537099434250 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.97385197461132 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71984349437071 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06415927258256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13682692238279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28297095835516 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84124705787567 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87842090380647 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.97771289349625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72334689771641 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06413009745848 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14047302635627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28860873248806 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84500125998734 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88161351291695 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.98171519715544 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72705367487627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06429343684235 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14438054698568 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29421786046767 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.84884987806439 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88491545517617 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.98584982453514 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73088389507624 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06461646706436 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14793377281559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29979297464579 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85276342325259 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88829821922100 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.99009573625749 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73479580816447 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06507411528558 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15127076101161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30527431539278 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.85671165914343 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89173276489124 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.99441904628074 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73877479431767 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06564926045399 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15455401567025 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31060253496759 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86067400517323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89519707302565 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.99879155693491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74280676706016 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06632368149684 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15782260256762 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31584125204646 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86464251688168 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89866755375503 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00319239010417 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74687356957335 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06708104958566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16107347805721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32100525148856 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.86860730233081 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90214589495020 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00760368445741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75095448145182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06790561879811 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16433317697174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32609281461296 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.87256436760465 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90560607647146 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.01200341516602 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75503632043307 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06878768005451 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.022E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.632E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.08206871287470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16741196483421 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76569824379015 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.85522763287031 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.09538104369262 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.70762627130363 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07950610108454 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09784747818006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16041510840322 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75783873155962 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86577299198156 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15414741706768 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71144555247740 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08065002758035 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09441004647750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15402469806178 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75342357885249 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86883002478414 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.15764250731460 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71501405419648 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08149928548392 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09410563328581 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15238378571747 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75209273003251 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87144611553750 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.16118009025800 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.71834672191622 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08239969587617 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09524095974056 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15318137677226 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75231421890093 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87393519266341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.16474638024058 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72167855913605 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08334070169573 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09709382658291 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15522918411599 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75342864676830 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87639966684395 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.16837952317465 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72502584827446 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08430938160405 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.09928519001378 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15790168064249 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75509069073680 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.87887029786083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.17203887852504 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72836810593255 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08529367920466 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10159808596560 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16090972942991 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75710055279621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88136006691102 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.17570294420349 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73168698649255 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08628398662664 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10407011688726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16407119681476 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.75933082249233 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88385333555912 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.17936143578702 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73497054884503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08727362486723 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10659455963972 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16729339180176 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76169672826039 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88633457219637 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.18298246850489 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73820548055011 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08825502939135 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10908538894352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17052364630640 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76414126905373 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.88879301991696 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.18656012026569 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74138155702317 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08922669958062 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11152729118855 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17373443388895 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76662494310838 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89121960699200 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.19008589057135 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74450205484940 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09018664178762 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11392390242973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17690023980165 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.76911872618185 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89360682795785 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.19355220775961 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74755782395040 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09113293610992 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11627244309908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18001120768411 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77160648598431 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89595036553675 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.19695196133407 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75054314725218 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09206362138277 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11857312549589 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18306012781318 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77407390138024 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89824581121657 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.20028082337387 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75345724950411 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09297782964856 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12082428628806 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18604144480770 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77651107379742 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90048794021279 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.20352957256031 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75629753937342 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09387506132174 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12302490456577 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18894866586505 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.77891127362088 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90267728550908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.20669981447524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75906191967495 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09475414798873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12516621821810 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19178104706750 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78126876338564 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90481321298372 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.20978834111949 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.76173545818283 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09561392165822 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12724932914439 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19454141430319 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78357875226967 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90689336141923 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.21279240512649 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.76433743368769 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09645485890853 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12928502049908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19723013856565 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78583770968296 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90891378682067 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.21570675291415 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.76686721843405 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09727718369547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13128801647777 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19984561475394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.78804418332507 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91087364422236 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.21854047561122 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.76932523789286 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09808033034526 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13324039920895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20238903120616 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79019674617151 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91277579145541 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.22129441190420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.77171218899253 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09886361828221 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13514150949177 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20486212641634 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79229444956793 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91462234191791 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.22396183874505 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.77402922080964 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09962718051295 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13699223359227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20726714237064 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79433676237738 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91641347414402 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.22654145403450 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.77627772222646 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10037115062532 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13879295304269 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20960517523632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79632204127386 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91814830157871 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.22904174391290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.77845846093361 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10109551713800 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14054423601358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21187657247235 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.79825086095609 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.91982866372130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23146489095905 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.78057245109264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10180026176335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14224886010744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21408339420223 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80012746921626 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92145665129258 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23381380448000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.78262071894537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10248563452503 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14390837058908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21622788583968 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80195286239853 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92303541207079 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23609015291289 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.78460435013444 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10315188831805 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14552231975858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21831002663191 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80372405598752 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92456293574993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.23829461202269 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.78652555776006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10379937249566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14709112458749 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22033093446863 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80544114456735 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92603939643345 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24042729739697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.78838654272370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10442838293088 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.14861588430373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22229136130447 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80710382897131 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92746549130757 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24249149603744 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79018899572652 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10503927069545 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15009682717445 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22419216234624 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.80871315484905 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.92884285368647 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24448922228379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79193421232216 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10563260254398 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15153345224622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22603267141781 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81026990862842 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93017293456952 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24642106017941 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79362320551856 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10620850014766 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15292796818544 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22781644539471 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81177635050902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93145725158863 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.24828888379781 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79525839681060 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10676712463794 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15427136167370 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22954737524341 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81323262663356 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93269693392993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25009413769500 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79684125537877 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10730872392523 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15562912116618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23121861560305 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81464160009870 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93389321959345 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25183763312863 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79837302615494 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10783362054633 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15686535199552 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23284298673490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81600130106831 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93504651096023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25352173349999 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.79985533086688 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10834224317388 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15810384950745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23441379709294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81731399345400 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93615749162270 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25514780203928 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80128986007608 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10883503627628 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.15931176018025 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23593508694114 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81858077559377 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93722799983528 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25671774570504 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80267758531566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10931191341529 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16048642596660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23740483984321 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.81980291672191 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93825973808671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25823340284631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80401969919511 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10977307178432 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.16162603439024 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23882920957998 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.82098203850130 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.93925336658112 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.25969580788974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.80531761051850 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11021944739822 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.022E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.632E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.11235440101007 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15331535458282 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71835282053220 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.85543723256094 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.00256109054670 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.72116097709822 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08371699171405 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12185375575157 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15183312444284 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.72436945073672 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89330506771846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.35437772311291 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73392366967503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08516719057343 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11195002186532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14080681864700 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.71475164375090 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.89816756977233 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.36729180608575 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73645371527468 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08550758324945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10865758308928 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13493241620293 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70834124471380 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90013120456473 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.37560134550774 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73822422991083 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08600461943153 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10813296795503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13144326550594 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70368519155089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90080731046744 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.38141076011329 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.73970019414852 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08656044938668 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10871492063474 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12963562975255 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.70031863201751 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90098368809427 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.38573010141629 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74096063166324 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08711968229068 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.10968152703721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12882516576739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69789626007043 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90097554487213 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.38918368632418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74204574288201 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08765231679352 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11073318973226 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12847638025307 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69615654739154 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90091127587173 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.39203289045681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74300145803207 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08814453671002 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11176446080189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12841520957477 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69491223414114 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90084425442308 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.39444072805878 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74385382490657 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08859280429238 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11274385793189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12853738779243 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69403379874046 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90079972500978 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.39651520057084 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74462259678008 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08899811581871 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11365417416603 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12879215482887 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69342712597087 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90078422882360 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.39833021711486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74532235612238 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08936403997067 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11449986209537 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12912839875815 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69301837735256 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90079778688456 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.39993767571966 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74596403579879 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08969484123740 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11528830871647 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12951478148803 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69275618091010 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90083363090000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40137396777004 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74655543466214 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08999479564256 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11602559049156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12993062471949 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69260368650175 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90088791208245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40266798815830 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74710350663409 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09026781618932 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11671683940668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13036322572203 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69253474649198 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90095759791942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40384254302908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74761542248022 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09051736307255 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11736691649426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13080350021984 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69252871215395 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90103875988978 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40491472565530 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74809381912243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09074646754159 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11798024677958 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13124573464876 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69256682069443 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90112888308660 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40589916025822 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74854623307916 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09095769096374 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11856051903683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13168558663411 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69263962675005 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90122577094838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40680656782438 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74897448640611 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09115323674758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11911091341084 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13212019741787 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69273749364300 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90132753260883 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40764371836857 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74937824222467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09133500930602 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.11963403433402 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13254760412959 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69285651727907 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90143275486525 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40842120000037 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.74975967040832 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09150461845410 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12013204301518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13296640065478 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69299144876870 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90154030173522 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40914414038379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75012076036420 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09166341848684 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12060680168057 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13337564245256 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69313816263244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90164919134544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.40981852119007 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75046325738991 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09181256298903 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12105997071654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13377470149321 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69329346177171 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90175866157649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41045018836928 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75078867572166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09195303495516 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12149289367361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13416307772429 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69345475466089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90186804615895 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41104303552516 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75109832892721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09208567472257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12190691198906 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13454061761658 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69361989719231 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90197684270330 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41160087367114 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75139340477732 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09221121096574 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12230323305898 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13490730394741 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69378734125800 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90208455364385 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41212626918067 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75167497082316 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09233029896041 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12268286998459 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13526313512059 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69395564371484 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90219088130182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41262208364029 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75194389550588 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09244346477380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12304691867304 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13560825669774 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69412367407516 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90229552073216 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41309105564842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75220098017336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09255117755622 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12339619720408 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13594270305357 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69429057591355 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90239828559144 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41353535731714 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75244698268510 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09265385105878 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12373139572860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13626664017953 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69445554415271 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90249893648687 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41395649212666 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75268257310913 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09275184927276 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12405316534249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13658020528489 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69461795492404 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90259729551356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41435596312554 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75290835721983 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09284549558858 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12436218434188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13688371095630 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69477743321684 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90269325726238 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41473522637980 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75312489659869 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09293507853976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12465901546097 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13717727559019 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69493361985547 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90278673673237 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41509559493665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75333268742892 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09302085495820 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12494421856895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13746116974161 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69508619221007 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90287765326232 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41543825399245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75353218437199 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09310305500508 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12521836185179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13773570142763 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69523495317586 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90296595915303 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41576430527631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75372383193390 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09318188886667 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12548194648687 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13800113343072 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69537974189777 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90305162419856 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41607473581285 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75390802143464 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09325754538257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12573543797388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13825773542816 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69552043838053 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90313462065153 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41637045958506 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75408512772287 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09333019896180 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12597927859496 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13850577382401 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69565696408680 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90321492676958 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41665231518974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75425549605170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09340000754128 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12621388367180 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13874550859096 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69578926009658 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90329255114092 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41692107069647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75441944047524 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09346711531188 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12643962339635 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13897717260245 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69591731048314 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90336751381846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41717739902164 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75457726270856 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09353165683005 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12665685827919 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13920103127639 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69604113854124 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90343984310766 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41742201137327 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75472925018012 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09359375690232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12686592623560 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13941730975693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69616078144308 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90350956416806 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41765551578352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75487566484043 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09365353025881 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12706722989303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13962625655210 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69627626560876 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90357672255834 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41787849050675 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75501675587170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09371108390673 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12726108950975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13982815747080 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69638763384133 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90364136222959 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41809147322797 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75515275854684 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09376651781407 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12744780895921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14002324666932 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69649494690709 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90370353017493 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41829496585642 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75528389410221 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09381992535580 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12762767797155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14021175248739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69659828000236 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90376327603090 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41848943829810 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75541037190219 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09387139445997 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12780097816521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14039388977728 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69669771042732 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90382065204301 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41867533232350 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75553238973224 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09392100767014 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12796796922048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14056987668776 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69679331922745 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90387571287197 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41885306257226 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75565013454928 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09396884275402 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12812890415365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14073993417994 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69688522451982 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90392852826452 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41902302783705 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75576378554561 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09401497311122 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12828402015319 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14090426290175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69697352357341 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90397915831017 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41918559705514 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75587351141725 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09405946818924 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12843353884689 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14106305095859 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69705829055306 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90402764993563 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41934110885845 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75597946962619 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09410239389424 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12857767739199 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14121648594935 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69713962787931 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90407407256241 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41948989246470 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75608181188433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09414381233996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12871664443425 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14136475279842 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69721762770006 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90411848696312 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41963225651740 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75618068002196 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09418378254068 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12885064822213 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14150803908750 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69729239149723 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90416094589717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41976849803606 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75627621469629 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09422236112268 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12897988075055 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14164651914462 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69736402110792 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90420151138776 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.41989889614567 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75636854719269 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09425960174978 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12910452085128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14178035479959 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69743261258272 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90424024408401 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42002371508889 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75645780236669 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09429555553030 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12922475086674 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14190971479004 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69749826991802 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90427720516130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42014320770430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75654409929508 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09433027127918 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12934073996273 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14203475669859 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69756109431649 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90431245502578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42025761284158 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75662755147162 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09436379551756 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12945264867485 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14215563121252 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69762118603107 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90434605357505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42036715777650 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75670826735873 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09439617274887 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12956063428181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14227248748942 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69767863772733 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90437805804783 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42047205824492 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75678635039182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09442744553042 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12966484490173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14238546772127 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69773354431526 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90440852565890 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42057251958754 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75686189871485 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09445765447910 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12976542562767 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14249470444012 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69778599958617 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90443751300255 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42066873802300 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75693500747376 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09448683863258 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12986251069585 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14260033021075 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69783609303635 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90446507548633 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42076090026452 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75700576736612 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09451503539845 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.12995623952346 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14270247738139 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69788391550419 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90449126875529 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42084918878403 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75707426767106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09454228041023 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13004674636810 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14280127365050 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69792955533640 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90451614566944 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42093377664014 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75714059328742 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09456860809307 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13013414314201 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14289683340899 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69797309226838 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90453975411045 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42101481952535 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75720481945202 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09459405197662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13021854271235 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14298926851855 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69801460723233 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90456214441835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42109247101844 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75726702119273 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09461864363646 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13030005473957 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14307868766648 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69805417963870 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90458338813109 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42116687721958 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75732727099324 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09464241335627 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13037878514391 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14316519597934 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69809188652475 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90460352321554 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42123817780592 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75738563852826 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09466539025546 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13045483696349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14324889394628 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69812780351133 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90462258097062 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42130650634735 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75744219110774 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09468760318123 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13052830654406 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14332987827986 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69816200343819 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90464061202882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42137199058473 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75749699261738 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09470907905186 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13059928543659 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14340824463731 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69819455592361 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90465768133890 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42143475267042 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75755010436432 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09472984342936 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13066786834680 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14348408524388 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69822552888969 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90467380212554 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42149490941799 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75760153303711 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09474992095789 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13073414359950 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14355748895555 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69825498870642 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90468901541096 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42155257294769 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75765138940632 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09476933545790 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13079819547832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14362854063595 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69828299909375 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90470336021567 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42160784990074 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75769972851161 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09478810995215 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13086010555782 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14369732293109 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69830962179455 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90471687535114 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42166084291967 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75774660270044 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09480626677919 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13091995182966 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14376391499541 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69833491585191 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90472959777720 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42171164991041 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75779206225220 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09482382742681 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13097780977987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14382839342268 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69835893966576 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90474156311375 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42176036433821 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75783615510652 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09484081258672 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13103375109614 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14389083135371 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69838174846955 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90475280584339 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42180707589103 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75787892806873 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09485724230459 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13108784477559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14395129940047 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69840339552836 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90476335911781 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42185187017763 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75792042585512 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09487313583237 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13114015726098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14400986637970 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69842393340916 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90477325259201 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42189482040221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75796069145005 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09488851197496 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13119074827571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14406659114434 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69844340971763 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90478251784510 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42193601003471 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75799976534379 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09490338856077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13123968293397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14412153743985 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69846187133994 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90479118516133 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42197551594591 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75803768736953 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09491778271366 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13128702116381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14417477180712 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69847936544943 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90479928659618 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42201341210351 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75807449555403 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09493170516863 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13133282009517 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14422635320234 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69849593699985 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90480684996285 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42204976742202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75811022687360 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09494517342577 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13137713467948 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14427633838816 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69851162805724 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90481390015219 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42208464680019 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75814491704836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09495820656253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13142001786613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14432478212068 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69852647925085 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90482046206999 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42211811300704 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75817860047183 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09497082025554 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13146152164442 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14437173678284 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69854053031671 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90482656051607 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42215022650383 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75821131033500 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09498302915007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13150169343214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14441724945521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69855381719683 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90483221834740 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42218104486904 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75824307845865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09499484718676 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13154058092143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14446137131460 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69856637635519 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90483745805046 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42221062341589 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75827393553961 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09500628779810 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13157822902500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14450415095497 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69857824262492 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90484230080991 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42223901465612 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75830391113867 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09501736395296 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13161468169772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14454563427635 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69858944924016 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90484676751646 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42226626946509 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75833303370773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09502808810953 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13164998113340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14458586533730 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69860002810560 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90485087815359 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42229243644191 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75836133069616 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09503847230780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13168416788146 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14462488653040 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69861000976955 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90485465176655 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42231756197466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75838882854980 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09504852814584 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13171728111150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14466273884771 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69861942360823 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90485810669555 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42234169055230 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75841555283240 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09505826685047 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13174935800412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14469946127772 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69862829759788 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90486126041626 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42236486465070 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75844152813225 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09506769920949 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13178043678734 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14473509173011 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69863665849128 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90486412967590 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42238712497203 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75846677820278 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09507683566388 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13181055112009 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14476966534005 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69864453250801 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90486673109356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42240851055869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75849132602607 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09508568631572 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13183972926515 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14480321631373 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69865194321222 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90486907964799 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42242905864139 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75851519369386 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09509426086992 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13186799835857 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14483577638615 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69865891328596 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487118986341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42244880496955 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75853840256789 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09510256872568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13189539645645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14486737964608 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69866546540223 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487307571638 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42246778381194 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75856097325564 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09511061897204 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13192195527606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14489805980161 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69867162162197 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487475053303 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42248602780961 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75858292559183 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09511842033364 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13194770457790 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14492784750753 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69867740303423 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487622737263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42250356831171 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75860427879084 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09512598125975 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13197267100755 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14495677197471 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69868282882796 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487751817659 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42252043523657 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75862505140958 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09513330992585 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13199688136912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14498486172935 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69868791761820 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487863432301 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42253665714939 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75864526128028 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09514041417811 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13202036153345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14501214423301 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69869268742394 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487958693352 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42255226154388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75866492570848 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09514730161616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13204313612994 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14503864564136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69869715546301 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488038667875 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42256727477012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75868406143834 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09515397959334 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13206522922972 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14506439154465 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69870133803511 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488104358324 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42258172194769 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75870268457283 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09516045515878 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13208666383942 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14508940642907 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69870525070785 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488156722590 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42259562715372 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75872081070260 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09516673514413 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13210746211386 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14511371389223 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69870890831491 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488196670876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42260901343078 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75873845491170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09517282616402 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13212764534325 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14513733663952 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69871232497152 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488225068657 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42262190279323 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75875563171905 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09517873455443 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13214723399568 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14516029649934 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69871551413934 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488242751840 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42263431637012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75877235519404 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09518446644270 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13216624788412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14518261462466 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69871848864069 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488250499612 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42264627436260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75878863895085 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09519002778973 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13218470605887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14520431139060 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69872126062901 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488249043835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42265779601522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75880449608612 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09519542428993 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13220262699341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14522540620825 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69872384180642 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488239097537 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42266889979666 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75881993929924 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09520066146413 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13222002846039 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14524591740175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69872624337497 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488221351846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42267960341127 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75883498090242 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09520574466100 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13223692682578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14526586345403 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69872847541897 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488196413004 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42268992367600 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75884963271492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09521067899253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13225333867137 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14528526228838 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873054791022 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488164871878 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42269987674027 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75886390620412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09521546942570 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13226927996080 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14530413107787 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873247033745 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488127288630 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42270947802267 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75887781243155 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09522012073317 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13228476606164 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14532248636043 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873425175677 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488084198754 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42271874231651 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75889136212977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09522463753822 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13229981169772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14534034400553 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873590069157 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90488036101327 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42272768368444 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75890456560651 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09522902425539 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13231443108225 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14535771933680 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873742526517 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487983471945 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42273631562275 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75891743287827 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09523328518875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13232863792356 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14537462715290 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69873883320140 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487926761838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42274465107427 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75892997366912 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09523742450712 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13234244538014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14539108168065 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874013175610 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487866389287 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42275270233118 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75894219731330 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09524144617897 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13235586617377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14540709667818 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874132784496 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487802752073 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42276048118254 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75895411287243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09524535405816 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13236891258607 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14542268544512 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874242804029 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487736226606 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42276799892744 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75896572913836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09524915188205 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13238159640698 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14543786077141 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874343849952 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487667159591 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42277526628764 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75897705455391 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09525284320683 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13239392904404 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14545263503510 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874436509030 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487595880397 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42278229354993 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75898809732105 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09525643148917 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.13240592151604 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14546702020936 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.69874521338477 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.90487522700119 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.42278909057564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.75899886540244 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09525992008341 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 33587 TA= 6.70000E+01 CPU TIME= 7.63152E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 26.5347377777778 %check_save_state: izleft hours = 53.3858333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.700000E+01 NSTEP= 33587 Hash code: 85149214 ->PRGCHK: bdy curvature ratio at t= 6.8000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 67.000000 ; TG2= 68.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7920E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 67.000000 TO TG2= 68.000000 @ NSTEP 33587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.92395E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 35= 1.19256E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 35= 1.19256E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.92395E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 35= 1.19256E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 35= 1.19256E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.37753E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.45413800000097 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.30374837287405 q( 3 )= 6.14576328975859 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9268E+00 8.4359E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 533.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 533.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 533.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.71102134303204 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21805763476960 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11478683688611 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.28396676601592 at nshe,nfasti = 5 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.908E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.18346254378809 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52452150600765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16145118559264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45706029325269 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.26843023835583 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.47769834218893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16141166230979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.28094429555773 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.39291934086272 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44144926342284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12075807227690 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.29162143586398 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07539919883003 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.52463637456754 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.46027511567214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12974943068040 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.36509555364522 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08282138274286 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.65239290307152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.46299636072443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12577630360166 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.29930636271955 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.13872247910429 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.75649899810947 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48253393472038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14775202888245 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41564243638883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.13476924513350 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.84328198361738 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48605500055727 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14580768082979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.33157512061883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.14864995399810 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.96217862784703 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49411860152548 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15707665597847 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40186377049047 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17764557842232 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.01494450261754 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.50296433890079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16102009344506 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.35787602352163 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17875095445525 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.09162229829050 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.50827830552506 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17126014184544 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42355209429546 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20037129508570 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.11691724836409 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.51505335453723 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17430044099497 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.37470608642562 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19655243672087 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.17551737927072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.51857806625424 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18287842290900 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43792984409359 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21461612109006 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.18578976807287 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52357757161691 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18424303319094 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.38592755260625 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.20786676903946 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00007134949605 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.23179145070787 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52533628810226 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19076268425618 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.44775845228170 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22369066967370 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00120374607953 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.23223439228216 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52914342655135 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19112622164397 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.39330193235476 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21496508253346 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00285644709644 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.27005373683162 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52978913623672 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19610661373887 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45412132747034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22931211515311 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00316668351043 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.26363147941433 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53269053994852 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19526488283674 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.39805471358023 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21926962316065 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00408367616646 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.29575387237839 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53257435457954 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19920903285757 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45828705574735 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23267429179931 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00390563583548 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.28486387047388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53493927803273 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19757457919095 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40104617495238 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22176301811467 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00438860770025 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31297495991920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53430078250889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20083684388020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46094619320163 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23457382608546 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00389202054671 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.29844403748074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53617967920897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19862943856622 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40282827672236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22299880642229 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00414836975145 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.32393400310304 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53523888607394 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20150041597248 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46258529876561 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23553641048923 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00349541546978 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.30718864167422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53686575768043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19897856686468 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40388453504177 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22350591157887 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00361717387106 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33087282437031 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53573007297279 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20162107336586 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46355356306928 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23593140987079 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00291312496398 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31264858123656 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53720324502413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19893327464492 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40448286056683 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22360954300706 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00298185322196 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33509687110532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53593567467627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20143331202101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46411039243864 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23598095374636 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00227762190811 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31591111078968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53732221903189 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19867399044399 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40477276731199 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22347653709628 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00233498472918 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33758543203561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53599655731814 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20111979715504 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46440684681744 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23584866716676 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00165049263560 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31776012953391 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53732285445640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19832815062358 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40488171285623 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22323097359383 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00172137729658 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33892853725399 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53596409609552 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20075177001097 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46451975766342 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23560141979114 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00107403150916 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31873636493462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53727865581797 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19798421733218 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40488391529286 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22293976123241 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00117254157289 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33959492985619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53590085520706 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20043480675751 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46453658950209 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23531322503651 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00056875667267 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31916369278410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53720321382598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19765866688373 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40482087532658 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22265113490636 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00069523046202 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33985055561909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53583213384552 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20021052822269 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46449912879381 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23503684163949 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00013040892683 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31929632977174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53713221080282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19738426721642 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40474439448490 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22237868153112 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00029537826148 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33989811179222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53576123816469 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20000958314596 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46443590772789 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23478486247326 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31924874047222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53705326098208 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19713341695055 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40464944037109 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22213625657620 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33981066077330 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53570053101013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19984987226335 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46436251189662 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23456208949055 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31914168179950 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53700200620986 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19694924418055 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40455331433314 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22192935566272 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33966886894338 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53564955708843 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19971728059418 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46428083194404 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23437353784628 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31899499018973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53695829152500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19679767981360 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40446788966312 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22175674506186 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33952482705841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53561446253967 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19962075369295 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46420979598852 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23421638608604 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31882693626876 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53691382118349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19666969966358 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40439007907815 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22161403898502 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33936302933807 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53557793551565 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19953589253255 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46414837775262 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23408603649048 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31870130574434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53689444305612 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19658721556553 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40433106638746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22149708161458 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33923221896658 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53555350001937 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19947474348513 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46409444222376 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23398172545353 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31857571752671 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53687202452352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19651581525449 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40427722961491 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22140484905730 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33913716289032 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53554804255412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19944333887199 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46405233648824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23389970885617 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.119E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.31846863699234 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53685604485399 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19646280899689 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.40423480835925 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22132950382890 at nshe,nfasti = 3 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 34087 TA= 6.80000E+01 CPU TIME= 7.61712E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 27.1266538888889 %check_save_state: izleft hours = 52.7938888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.800000E+01 NSTEP= 34087 Hash code: 51133820 ->PRGCHK: bdy curvature ratio at t= 6.9000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 68.000000 ; TG2= 69.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 68.000000 TO TG2= 69.000000 @ NSTEP 34087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.99283E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 37= 1.35903E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 37= 1.35903E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.99283E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 37= 1.35903E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 37= 1.35903E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.39590E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.889E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.86633400000574 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.22021993812169 q( 3 )= 6.09727916481260 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9284E+00 8.4362E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 571.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 571.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 571.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 7.64589342189483 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30876598919566 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69090705751603 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 3.16915422714504 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.44866186265946 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 3.81284955615839 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26552419058193 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04747858865518 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.15336415893122 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.43113331621493 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61185569176197 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.12051412386274 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80331552692324 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26827198436273 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11282404313731 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00361662532397 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.422182716800646 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.30992872607447 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44243950426635 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55435751490005 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.12048106338505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.74996725778446 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25832298669582 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12077402056187 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00291899465279 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.416171210120436 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.32216502308168 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.36973451843151 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46006588257568 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.06731360400658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69363150028090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22253886184773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09962696434205 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.423958681370295 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.29652225999657 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33354354695779 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41018197264435 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.03652146214301 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.66205759345538 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19811760195611 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08156212232550 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.424528036324867 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.25959807590195 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31298788731384 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37979158595056 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.02018674087444 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.64340053200664 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18022636569339 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06648076470890 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.424883823060787 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.00924810493702 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.21650560920296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.39464382350353 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.48325323727560 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.06649535763182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.70579764326651 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24736624709923 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12101586520609 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.415311401237217 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.16901932674168 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37997006721431 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46899864928135 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.06453798037299 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69609251190512 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23491544033936 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11057560930294 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.408614839747593 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.15886016087716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37787453452030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46333121991818 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07020470122995 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69427757329276 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22716308734401 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.10208048039889 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.408744139181666 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.15393301507500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37814909842337 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46082966694364 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07868787512232 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69521285974812 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22118359279256 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09519426801845 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.408815528914688 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.15207641435665 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37962198646124 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46062920150280 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.08907157609001 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.69799718122224 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21686197313109 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08968283470580 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.408895640087502 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.07428335900761 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33114221846231 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43790080813842 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.05635450407772 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71248159948311 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25005073461439 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.12305636039261 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.413161128021882 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.07377665471293 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33622972258845 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44063064468752 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07363451287488 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.71504355051939 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24746246311563 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11986942446498 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420132745208669 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01541979640773 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.07726691105490 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.34003010293267 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44359988103757 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.08660893391337 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.72000467541490 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24599208932020 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11728027569897 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420141615298053 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01578973274674 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.08100873117734 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.34400533106367 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44714784331467 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09982137513625 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.72570728132577 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24522470938464 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11537332860332 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420175259430272 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01665688236331 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.08510964895686 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.34825858907658 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.45100866051128 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.11317132698040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.73181955794488 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24503301585933 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11405762486190 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420175991757484 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01683427047312 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.08948482717445 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.35266029612153 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.45501559406692 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.12648802509928 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.73820568396486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24531055626875 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11324866620144 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420202385527971 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01748172455906 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.09419942833457 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.35717645188054 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.45928007555709 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.13967971765352 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.74471232357100 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24597854811473 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.11286842126643 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.420197565286376 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.01748685416478 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.00399672411109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29501782975793 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40777229387618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.07808797008777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.73360727793709 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25884302701455 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13017593738848 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411229854999591 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.01011954819427 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30373659069700 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41341215716140 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.09970040706731 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.73872970775729 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26076368652533 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13087978810212 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411218557905154 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.01565556390103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30861867252329 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41784272779805 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.11220321729214 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.74457484891713 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26200354301978 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13138017451050 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411238583875374 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.02016326684069 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31299514099929 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42225462218280 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.12418475406022 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75072454238465 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26345121913055 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13206779954540 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411228812335026 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.02441571363303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31716752151371 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42670906549018 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.13583358665085 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75696022827965 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26508197068495 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13293585825782 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411246813754222 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.02870991331210 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32126560053332 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43121965691584 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.14710722064233 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76317632257693 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26684301023316 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13395729457880 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411235449253136 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.03315207185261 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32534945800999 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43579404887364 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.15809372275827 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76934838794529 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26871190068977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13510590250415 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411252236620816 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.03775168022554 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32943173584000 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44041762848316 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16885478585464 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77544580830612 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27064984649743 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13635801859218 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00009113032466 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411239921666021 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.04248215543884 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33351715116136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44506434817801 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17937998211662 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78144514369245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27262603665964 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13769394220581 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00122237071603 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411255948416472 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.04730610552971 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33759768775723 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.44972119432366 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.18967495747623 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78734168367377 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27463533626953 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13909670682783 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00241925768940 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411243018395032 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.94949652804974 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27027906191894 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38706026486831 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.11296796573598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.75938543269282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26984369530672 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14006838018426 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00219677662937 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411139427010976 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95823956257140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27923219377007 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39287059174618 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.13315576068097 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76397889847817 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27341401875836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14216342025972 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00320000412694 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411126783599108 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96420354848506 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28383058735673 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39716677912160 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.14260153919208 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.76864157344051 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27522588038722 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14362752806395 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00442611804118 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411142118933206 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96885075950629 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28778892947223 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40128833598057 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.15155880787569 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77352423908036 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27706206275977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14507521741259 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00569812856125 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411128651465958 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97311951441037 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29146570495500 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40531544152675 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16019905108868 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.77841796241897 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27892508974851 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14653194676392 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00699139925117 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411143612742623 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97729517386823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29501806423448 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40929893739902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16858092270114 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78325196480557 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28079795344846 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14799349700748 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00829461271444 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411129864821322 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98146411618510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29851126445510 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41325146786657 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17672798236916 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78798916542759 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28266791911568 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14945586052588 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00960032029944 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411144617147173 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98564990050345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30198412113697 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41716691896207 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.18464741025499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79260757076449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28452312331995 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15091315141457 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01090294428654 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411130705794150 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98983704710643 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30543405403967 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42103684821629 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19234209697207 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79710879389798 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28635527492670 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15236005628618 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01219799693154 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411145326252317 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99405525949678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30884184909912 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42486640511676 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19981433840656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80148897018304 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28815847166132 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15379218961104 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01348179426566 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411131307053954 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99825548979011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31220132872545 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42864151507121 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20706770640455 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80574454395824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28992799289243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15520477183792 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01475118385678 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411145838009283 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.00242770503495 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31550882464717 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43235528056096 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21407502624146 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80987366940596 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29166156971765 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15659467837718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01600360142919 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411131744222206 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.00655875364979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31875981668255 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43600290775254 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22085337674928 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81387693940332 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29335669605714 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15796008812540 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01723703402805 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411146212461682 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.01065017310825 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32195521588841 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43958139262490 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22740351562385 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81775545271309 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29500841831333 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15929940401377 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01844973287195 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411132065924656 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.92550154868241 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25842728497857 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37733196311424 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.14975383743870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78237013086891 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27876849944335 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14865709782753 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00841484148576 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411100074667552 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93337551157124 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26613313789554 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38182096810044 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.16588594024662 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78518274780116 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28221649733234 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15060405941371 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.00930814299952 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086224738521 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93854720244728 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26981361795425 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38495284117854 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17193792758651 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.78792498955647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28352392134610 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15179753020238 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01035515700193 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411100667087455 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94222718647473 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27276444985768 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38785421609221 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17744208910019 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79085081469379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28480844531977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15292740800239 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01140113733269 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086539911304 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94546901552753 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27540117416787 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39062929680933 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.18266696719578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79379535731218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28608592018335 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15402852212098 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01242967771133 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411100900054736 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94855898253584 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27788698542894 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39332866686613 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.18768392905223 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79669754168825 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28734711611357 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15510375924685 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01343574254417 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086718202825 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95158683348274 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28028521207749 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39597029067675 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19252556059767 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79953299909741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28858386410192 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15615282917985 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01441747612015 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101044209082 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95458854593492 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28263525266638 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39856186949975 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19721103381279 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80228992890234 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28979185075242 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15717520311836 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01537407890197 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086838462195 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95755459893912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28494080823310 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40110092120549 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20174614212349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80496267312466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29096814663142 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15817027566063 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01630532902322 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101146519466 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96048995450380 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28720622734735 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40358699916111 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20613062606626 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80755115967434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29211127528923 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15913778266074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01721129462900 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086926751804 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96337857231521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28942352740570 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40601535280175 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21036559116618 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81005253943845 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29322036142996 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16007760102623 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01809215193288 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101223461794 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96593470188860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29141692499559 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40830690279038 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21409277499909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81241622405986 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29428863658601 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16098886213054 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01894810931500 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411086994315376 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96898742546243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29367857469610 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41068612411735 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21840982905849 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81480250137748 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29533930356240 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16187603721972 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01978032280971 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101283088541 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97197434645915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29592555940905 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41300909731143 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22254749285978 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81709054825432 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29635137087791 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16273495770691 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02058796844452 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087047170618 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97432977904562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29780107496861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41512469315471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22586607267482 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81919528235675 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29731423394757 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16356382110340 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02137106405651 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101330079643 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97685079861455 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29972826790739 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41723544499902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22939412835544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82127623559472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29825456758948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16436852202104 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02213138583865 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087089071481 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.97933046478879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30161524365990 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.41928843766872 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23279352787831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82327856457655 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29916328093412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16514809328767 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02286913330851 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101367527247 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98175000968669 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30345349813315 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42128101021839 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23606494476011 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82520352889774 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30003954646948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16590170456217 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02358462600503 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087122631051 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98410516322402 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30524072162671 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42321340857017 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23921504772970 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82705398350886 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30088456724847 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16663042319170 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02427830177682 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101397666266 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98639762889046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30698172375058 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42508638196884 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.24224733944685 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82883238096863 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30169918068078 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16733487852788 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02495061991790 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087149782862 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.98862685590322 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30867464073920 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42690054750789 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.24516302085181 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83054099865598 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30248427675702 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16801568097783 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02560205970513 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101422192301 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99079324154330 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31031842057837 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.42865814798639 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.24797140676417 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83218305263436 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30324116807238 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16867373342485 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02623315398070 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087172026181 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99289428512109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31191224360077 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43036000489010 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.25067220139366 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83376017702491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30397059847710 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16930966476603 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02684434040400 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101442445739 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99493407827156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31346106250640 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43200739690562 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.25326824269033 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83527434140884 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30467295222275 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16992394753853 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02743587040861 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087190542656 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99691455536324 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31496854472837 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43360186359897 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.25576364899030 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83672826489801 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30534953155737 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17051732123530 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02800853293003 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101459431505 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.99883715961383 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31643238938619 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43514214311476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.25815545430491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83818007271206 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30609355498866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17109689498926 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02856436254268 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087206194922 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.00069630501895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31785014519361 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43663379259654 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.26045939895777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.83949027986712 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30666943486774 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17164779961357 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02910068562060 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411101473928661 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 4.00249488039500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31922264164718 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.43807719705598 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.26267540890015 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.84074399772448 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30722193031752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17217804384735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02961905374110 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411087219703467 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.217E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.627E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.91823512437383 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25139988175663 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.36938549761070 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.17919027066748 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79801409839840 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28302966022206 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15372982957729 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01269789964058 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411073876306105 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.92320173901048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25751055062826 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37172388485714 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19080934709113 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79788441074357 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28584685101766 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15499689528914 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01289559813654 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411059840904545 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.92608819510268 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25950088919486 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37287901059659 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19289799727542 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79826690414380 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28616687780940 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15541391410270 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01326370636711 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074125723266 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.92766883278660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26083680510831 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37383768075531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19458873127130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79891072687477 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28648699726235 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15577964689100 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01364303479553 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411059932484655 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.92866430918542 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26179301974756 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37467769473713 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19606179266582 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.79964166823659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28682240802569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15613226068540 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01401709103462 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074181769120 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.92962816060308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26267698735533 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37550457528700 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19757142429403 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80042447345942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28716903047174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15647656127113 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01438128326655 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411059967068229 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93055794266981 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26351864096563 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37631440403385 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19902283033190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80120929791352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28751542278465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15681147017724 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01473376690460 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074205729527 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93136725188438 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26427206913783 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37708109727543 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20030857025041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80196491000452 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28785496342296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15713601882821 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01507406781531 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411059985018022 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93221840051287 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26502771669710 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37784745808389 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20161214818543 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80271493762299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28818944635214 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15745088883217 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01540258102637 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074219998470 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93306840535929 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26576916950588 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37860148811531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20287408652837 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80344434193623 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28851547455904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15775575504431 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01571961670326 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411059996925303 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93391189722154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26649678140452 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.37934066877940 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20409396967043 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80415097455390 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28883206752205 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15805063441954 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01602559323882 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074230314734 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93474578322598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26720925954882 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38006325455836 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20527205925885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80483393859498 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28913880884137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15833569805986 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01632096184787 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060006112282 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93556750892569 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26790549424072 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38076793974004 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20640855134923 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80549274119350 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28943537444232 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15861112721740 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01660615211027 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074238647149 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93637552714109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26858480051371 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38145382393540 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20750401940037 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80612737393123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28972178736198 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15887720162776 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01688159114851 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060013774819 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93716831260231 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26924670391965 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38212053405011 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20855913531042 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80673819132738 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28999833070758 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15913426626019 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01714769764776 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074245756827 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93794476159422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26989119008881 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38276817881399 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.20957549574555 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80732593083724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29026532900711 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15938264491164 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01740486038146 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060020414333 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93870347507901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27051801633308 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38339671268692 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21055353911838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80789092439429 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29052299811747 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15962263447718 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01765344582048 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074251991144 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.93944382772005 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27112724924837 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38400623303927 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21149432545874 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80843391337755 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29077159309597 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15985452457883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01789379542164 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060026295350 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94016535244207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27171896364613 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38459694679124 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21239898035876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80895561484404 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29101139317873 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16007859179195 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01812622923918 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074257555927 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94086783764715 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27229346617798 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38516920850298 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21326874102711 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80945675550197 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29124268392941 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16029511805981 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01835105335867 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060031580593 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94155137568585 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27285119904920 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38572341696125 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21410487616949 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.80993800042433 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29146568411345 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16050433067524 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01856854436032 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074262592692 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94221622815671 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27339266895166 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38626001081484 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21490872153919 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81040014522088 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29168062557698 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16070642982825 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01877896227949 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060036396654 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94286231821054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27391801909871 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38677940504685 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21568137895925 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81084395796753 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29188788031585 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16090174706883 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01898256999549 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074267205745 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94349009040343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27442754984920 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38728204383610 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21642394408204 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81127015678064 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29208773316497 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16109052779154 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01917961424873 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060040831628 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94409962755063 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27492167703241 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38776841379617 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21713766441852 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81167944208569 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29228045175123 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16127300196823 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01937032816332 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074271478441 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94469109966296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27540071768069 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38823897112477 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21782340934839 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81207239287038 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29246627652126 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16144938539191 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01955493266156 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060044954415 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94526485606384 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27586508133443 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38869418267773 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21848235621143 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81244970865670 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29264545878803 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16161988871592 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01973363803033 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074275466365 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94582126273406 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27631401104362 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38913453959088 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21911566765985 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81281202735862 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29281823311234 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16178471170305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.01990664516659 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060048819408 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94636069491803 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27674812690982 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38956050959089 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.21972435732116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81315994734211 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29298482386784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16194404592874 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02007414694060 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074279212632 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94688359827908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27716882996040 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.38997254500531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22030940964420 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81349404749764 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29314544813139 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16209807502259 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02023632709366 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060052459400 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94739034950847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27757653120987 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39037108187323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22087176595849 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81381485681313 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29330024595465 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16224689555893 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02039335564445 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074282751642 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94788133512708 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27797159262813 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39075654423298 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22141231873700 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81412282630718 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29344947168121 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16239074325132 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02054540508271 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060055900160 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94835696940063 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27835436504041 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39112935477891 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22193193712681 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81441853993978 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29359332190184 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16252977648798 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02069263939725 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074286101273 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94881771107652 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27872525544480 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39148992491608 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22243145315192 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81470251611889 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29373192767239 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16266409076430 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02083520980330 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060059163414 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94926381055210 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27908452916623 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39183859547670 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22291157266553 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81497523566186 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29386553383717 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16279391340985 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02097327198450 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074289276644 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.94969579390486 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27943257449622 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39217576291434 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22337334694428 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81523720264262 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29399434214832 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16291940820452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02110697448781 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060062258219 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95011401701514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27976970517968 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39250174524635 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22381748217739 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81548887980365 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29411854403561 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16304072652111 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02123645876107 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074292292259 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95051857044341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28009609553386 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39281686284078 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22424422449638 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81573054286730 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29423827435133 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16315800129450 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02136186076778 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060065193874 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95091008968946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28041219761299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39312154035435 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22465445849833 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81596261840047 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29435368546527 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16327136588063 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02148331205954 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074295152545 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95128899823099 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28071835955802 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39341613290631 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22504885078943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81618531788434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29446491574026 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16338094697113 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02160093779762 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060067981270 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95165567334044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28101488473445 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39370095335020 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22542792999340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81639906083251 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29457211256114 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16348686961712 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02171486137276 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074297864041 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95201047485364 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28130205437435 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39397633361570 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22579230250991 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81660427546528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29467542191588 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16358925446505 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02182520148291 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060070622785 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95235377305786 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28158017175886 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39424258944237 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22614260842303 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81680134876183 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29477498449507 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16368821785074 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02193207199946 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074300436163 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95268594045816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28184952964406 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39450002811013 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22647942006647 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81699061672214 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29487093203807 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16378387157662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02203558275634 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060073125168 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95300732966694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28211040759635 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39474894357844 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22680328069174 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81717240003741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29496339171932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16387632390680 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02213584001901 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074302869395 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95331822432359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28236305479452 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39498961763756 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22711468433458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81734698524280 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29505248614760 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16396567965150 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02223294670957 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060075493758 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95361889515664 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28260768826773 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39522232608609 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22741410799348 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81751467203167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29513833351795 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16405203985719 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02232700185026 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074305173974 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95390974477331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28284460588403 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39544732747223 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22770203016701 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81767573258011 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29522104930324 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16413550346833 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02241810210114 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060077732674 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95419107148641 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28307405027004 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39566486979080 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22797889042948 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81783041466469 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29530074817045 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16421616687526 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02250634095001 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074307351600 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95446312591562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28329623051336 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39587520475694 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22824511668519 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81797897053390 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29537753759172 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16429412337628 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02259180931705 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060079851030 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95472622825810 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28351138252854 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39607855504488 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22850112382357 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81812164448815 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29545151818178 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16436946215238 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02267459483678 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074309407751 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95498064339421 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28371970858227 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39627514129721 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22874730880254 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81825866861457 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29552278895643 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16444226945846 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02275478223375 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060081850662 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95522661056551 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28392139654040 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39646518092316 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22898405256762 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81839026646865 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29559144596679 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16451262881954 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02283245346414 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074311351664 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95546439098108 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28411666695108 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39664891568381 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22921172806284 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81851665583532 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29565758299485 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16458062161623 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02290768808890 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060083737142 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95569429312395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28430574257205 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39682654273268 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22943068814016 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81863804465334 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29572129064546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16464632660613 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02298056319258 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074313185233 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95591658510823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28448882490263 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39699826129498 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22964126590819 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81875463066021 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29578265622495 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16470982012622 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02305115345813 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060085519737 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95613151918565 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28466610603187 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39716426669074 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.22984378590340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81886660446218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29584176402545 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16477117607743 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02311953123288 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074314914022 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95633932831993 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28483777036149 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39732475096956 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23003857378908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81897415145203 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29589869564779 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16483046597218 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02318576660810 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060087200291 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95654023700243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28500345798020 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39747989793300 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23022593337983 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81907744901949 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29595352980221 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16488775896110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02324992741419 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074316547201 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95673448227965 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28516304304464 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39762988305681 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23040614770590 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81917666656114 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29600634212817 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16494312200297 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02331207939956 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060088784236 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95692231041880 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28531758804924 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39777487861865 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23057950400334 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81927194352661 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29605720446611 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16499662029679 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02337228621590 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074318086450 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95710393323747 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28546725844222 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39791504363633 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23074628516051 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81936327688839 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29610617476264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16504831623417 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02343060883474 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060090280548 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95727950292970 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28561217843622 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39805053581648 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23090672044824 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81945097661574 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29615333608618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16509827095723 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02348710771819 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074319536973 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95744913672725 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28575252435758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39818151575542 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23106105766981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81953520088604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29619875528249 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16514654362046 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02354184105212 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060091690655 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95761297085795 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28588846368726 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39830813465473 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23120953376861 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81961609904076 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29624249585243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16519319087406 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02359486500882 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074320907472 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95777130180578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28602007867211 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39843053468876 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23135237022283 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81969380241934 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29628461912971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16523826753269 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02364623390439 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060093019469 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95792435149900 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28614751053708 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39854885825709 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23148978732751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81976843904893 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29632518449779 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16528182677793 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02369600036485 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074322199065 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95807228388607 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28627089465418 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39866324254099 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23162199626267 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81984013157580 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29636424915826 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16532392000608 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02374421533774 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060094275368 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95821526873179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28639036131965 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39877382016326 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23174920043304 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81990899806746 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29640186806341 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16536459664731 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02379092801374 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074323417555 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95835347588331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28650603400124 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39888071952518 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23187159400714 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.81997515315854 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29643809448744 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16540390483378 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02383618613744 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060095457898 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95848702210512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28661803253698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39898406346087 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23198936062356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82003870412193 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29647297987953 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16544189115765 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02388003601943 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074324567285 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95861606900677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28672647760298 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39908397255176 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23210268324113 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82009975471770 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29650657384647 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16547860060930 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02392252245078 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060096576195 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95874081723054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28683148568053 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39918056860051 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23221181435995 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82015841019956 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29653892481218 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16551407697656 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02396368902275 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074325651131 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95886139382787 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28693316457782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39927396054561 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23231688857697 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82021476532151 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29657007889011 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16554836237392 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02400357780328 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060097630564 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95897792412099 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28703161903845 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39936425124756 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23241801403097 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82026890857746 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29660008003492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16558149723939 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02404222934409 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074326676648 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95909054178367 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28712695068192 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39945154503240 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23251534242091 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82032092784979 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29662897079385 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16561352071666 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02407968295652 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060098624757 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95919937971059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28721926109310 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39953594250876 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23260901977405 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82037090774123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29665679233924 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16564447070190 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02411597673088 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074327643788 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95930456976915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28730864842827 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39961754069795 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23269918644394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82041892937177 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29668358428384 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16567438377435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02415114749952 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060099565985 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95940623456977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28739520680373 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39969643375335 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23278597799506 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82046507076333 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29670938675932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16570329530214 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02418523094078 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074328555964 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95950446355094 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28747904065156 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39977271350337 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23286952618993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82050940747371 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29673423482379 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16573123950101 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02421826162471 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060100453866 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95959929592877 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28756024820329 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39984646234740 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23294993396331 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82055200757750 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29675816321746 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16575824930989 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02425027299240 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074329420063 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95969091668105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28763887175504 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39991776401743 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23302732743240 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82059294123230 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29678120665369 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16578435681704 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02428129749966 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060101291501 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95977945760572 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28771500743777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39998670459940 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23310183694773 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82063226781322 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29680339963817 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16580959346976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02431136659595 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074330235393 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95986502768335 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28778873780216 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40005336379158 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23317357273982 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82067005198938 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29682477305041 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16583398888983 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02434051057279 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060102085470 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.95994772813591 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28786014089102 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40011781925233 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23324264199903 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82070636243583 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29684535691997 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16585757153910 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02436875874326 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074331004758 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96002765662048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28792929219236 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40018014615034 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23330914835320 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82074125868420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29686518076854 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16588036912236 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02439613950903 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060102834801 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96010490649665 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28799626594948 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40024041701205 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23337319119978 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82077479760173 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29688427299836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16590240841435 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02442268033245 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074331734465 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96017956841497 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28806113305665 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40029870221417 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23343486619967 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82080703376011 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29690266102073 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16592371533486 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02444840783182 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060103542028 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96025173030801 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28812396002329 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40035506829945 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23349426382111 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82083801938854 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29692037127438 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16594431495790 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02447334780847 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074332423281 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96032147689978 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28818481220848 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40040957989635 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23355147142235 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82086780448842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29693742917017 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16596423146691 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02449752518869 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060104213211 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96038890822678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28824375417208 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40046230004797 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23360657435156 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82089643700409 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29695385916635 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16598348824398 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02452096411591 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074333073499 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96045410357701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28830084784315 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40051328942418 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23365965372702 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82092396307213 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29696968483294 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16600210787609 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02454368797987 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060104846880 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96051712238219 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28835615214008 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40056260622493 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23371078772453 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82095042186159 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29698492238935 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16602010815841 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02456571862647 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074333690952 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96057803726393 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28840972450051 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40061030675883 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23376003068580 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82097585434738 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29699959200466 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16603750903181 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02458707755137 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060105446346 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96063691905771 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28846162093980 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40065644569471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23380747238798 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82100030644532 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29701372151172 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16605433499671 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02460778657938 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074334272738 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96069383636580 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28851189551977 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40070107594903 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23385318474654 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82102381823967 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29702733216156 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16607060632669 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02462786648241 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060106013552 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96074885641946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28856060014299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40074424862231 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23389723380600 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82104642759793 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29704044380211 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16608634218163 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02464733720212 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074334825651 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96080204165082 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28860778385444 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40078601322900 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23393968267709 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82106817065987 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29705307538277 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16610156098361 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02466621801695 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060106549095 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96085345611752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28865349659935 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40082641782205 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23398059321380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82108908226547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29706524511731 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16611628050241 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02468452758720 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074335347776 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96090316074987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28869778617065 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40086550815063 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23402002403796 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82110919560025 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29707697042694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16613051781891 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02470228391523 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060107058371 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96095121417323 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28874069862746 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40090332841778 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23405802214078 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82112854250458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29708826808467 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16614428943248 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02471950443706 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074335840769 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96099767317519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28878227849883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40093992141041 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23409464129953 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82114715375453 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29709915432226 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16615761130321 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02473620605363 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060107539299 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96104259182193 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28882256863909 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40097532849688 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23412994429429 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82116505849378 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29710964459928 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16617049876682 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02475240506196 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074336309868 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96108602212077 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28886161037471 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40100958966415 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23416398116799 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82118228470663 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29711975378537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16618296663096 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02476811724613 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060107993390 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96112801351912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28889944325619 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40104274321523 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23419679901430 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82119885940214 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29712949625383 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16619502922253 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02478335790538 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074336752853 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96116861570155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28893610639533 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40107482653753 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23422844476897 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82121480833129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29713888576124 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16620670031016 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02479814179630 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060108425743 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96120787638751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28897163750095 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40110587571358 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23425896300039 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82123015633852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29714793557658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16621799320851 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02481248322075 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074337171096 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96124584128720 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28900607311391 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40113592561204 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23428839651554 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82124492730075 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29715665849577 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16622892079343 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02482639604114 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060108834007 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96128255432426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28903944857996 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40116500986468 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23431678637214 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82125914406820 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29716506678097 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16623949544625 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02483989362843 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074337569572 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96131804586834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28907180006345 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40119316299713 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23434417311499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82127282878291 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29717317228503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16624972914858 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02485298894626 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060109219436 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96135236813603 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28910315927730 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40122041528155 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23437059439197 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82128600259181 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29718098643121 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16625963349248 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02486569456595 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074337945819 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96138556343204 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28913355715389 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40124679626699 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23439608613396 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82129868561977 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29718852014723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16626921961830 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02487802260956 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060109586895 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96141766876869 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28916302340340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40127233502850 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23442068280677 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82131089716362 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29719578396506 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16627849830028 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02488998482945 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074338300976 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96144872215181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28919158821691 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40129705982836 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23444441820564 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82132265587639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29720278804815 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16628747996104 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02490159262095 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060109933812 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96147875951753 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28921928150847 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40132099787129 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23446732477790 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82133397960391 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29720954211837 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16629617461154 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02491285696762 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074338639810 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96150781494122 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28924613111777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40134417538641 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23448943350093 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82134488544996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29721605554412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16630459192849 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02492378851682 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060110261232 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96153592349634 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28927216324526 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40136661701943 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23451077328008 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82135538960892 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29722233740569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16631274137082 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02493439766475 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074338959653 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96156311747784 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28929740418628 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40138834776196 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23453137333525 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82136550788419 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29722839632243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16632063190194 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02494469434823 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060110573831 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96158942726258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28932187892487 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40140939141712 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23455126135754 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82137525545775 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29723424062247 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16632827219657 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02495468818975 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074339262692 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96161488262597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28934561169824 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40142977086144 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23457046384484 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82138464685646 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29723987831408 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16633567063774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02496438851767 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060110867627 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96163951254853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28936862604757 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40144950821194 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23458900629846 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82139369605634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29724531714041 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16634283535550 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02497380439567 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074339549830 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96166334488821 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28939094469883 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40146862478217 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23460691314492 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82140241644665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29725056455705 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16634977415418 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02498294455424 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060111148408 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96168639565529 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28941261233255 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40148714449982 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23462421037288 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82141082125682 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29725562770187 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16635649459596 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02499181746710 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074339820695 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96170869410202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28943363460275 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40150508503260 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23464091866641 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82141892254412 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29726051343695 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16636300399604 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02500043135984 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060111413324 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96173027098430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28945402414171 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40152246428669 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23465705871296 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82142673188390 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29726522832223 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16636930936859 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02500879415044 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074340079775 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96175115267739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28947380094865 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40153930077346 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23467265146304 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82143426059077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29726977871099 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16637541751026 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02501691352540 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060111663152 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96177136325221 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28949298448505 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40155561246373 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23468771712649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82144151957457 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29727417073544 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16638133500365 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02502479694715 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074340324149 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96179092551893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28951159347774 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40157141666362 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23470227503536 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82144851924382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29727841023967 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16638706815404 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02503245159485 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060111902322 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96180986152423 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28952964600301 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40158673010448 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23471634379539 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82145526963098 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29728250287818 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16639262307342 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02503988444083 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411074340554534 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: RF renorm adjust = 3.96182819243920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28954715960911 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40160156896294 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.23472994130948 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.82146178038587 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29728645411022 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16639800568462 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.02504710225727 at nshe,nfasti = 8 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.411060112127845 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 34587 TA= 6.90000E+01 CPU TIME= 8.29899E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 28.4055152777778 %check_save_state: izleft hours = 51.5152777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 6.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 6.900000E+01 NSTEP= 34587 Hash code: 115609453 ->PRGCHK: bdy curvature ratio at t= 7.0000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 69.000000 ; TG2= 70.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9310E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 69.000000 TO TG2= 70.000000 @ NSTEP 34587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.89870E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 38= 1.20706E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 38= 1.20706E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.31784E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.89870E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 38= 1.20706E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 38= 1.20706E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.31784E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.82269000000088 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.16499038098889 q( 3 )= 6.06502883794860 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9305E+00 8.4365E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.88894724761606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22078911964396 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51649957410635 at nshe,nfasti = 4 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.452388263681030 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.930E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 8.09324880605724 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.28741143432361 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.956E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.53426921764019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.83709458217572 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48586807903688 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.66267364905726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.85369557126080 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.56365860277237 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01672829698134 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.01748220220630 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.79816265285179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.89156437808845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.61163291246335 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.03367485123727 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.03385640016471 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.90644009292555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.92556836870850 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.64951381123279 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04704640952004 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.04682407108209 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.00626311435807 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.95906791697552 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.68231346437383 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05777935242184 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.05714618371914 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.09820169523054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.99261609455206 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.71032158869158 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06627623552494 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06509467900782 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.18105218146690 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.73417213080335 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07283569110227 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07124938758182 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.25125170504587 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.75405733930620 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07792013662682 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07591898499611 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.30979003751596 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.77081965141175 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08157737627733 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07945879135992 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.35857970788549 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.78456725645280 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08422963039189 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08206803563968 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.40032377559052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.79592506029136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08593197966034 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08395061463696 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.43427062587260 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80595171736418 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08705044378251 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08526277990144 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.46054738353152 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.81364036701665 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08755672564271 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08610846041775 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.48047492808227 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.81969599568103 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08775930588263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08658435440377 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.49727661094221 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.82465324632510 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08756349121585 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08679646999021 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.50996869627794 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.82848031299591 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08723071402671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08678792837302 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.52087931997291 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83160400162126 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08664390590885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08663544415050 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.52879166346969 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83392780850704 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08604444948931 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08636128787829 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.53689043330864 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83585626414366 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08529868460942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08602014072974 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.54294677167632 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83722423579322 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08460034549551 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08561721592617 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.54911839308821 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83836568163143 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08380574119987 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08520721195903 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.55341101901875 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83910566371818 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08310271299578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08477155400717 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.55758256064323 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83976134434030 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08232547746610 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08434905004323 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56028455259536 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84013129249239 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08166630916927 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08391995712637 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56312797588177 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84049408301808 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08095650351500 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08352049689057 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56473976318514 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84063086403457 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08036875077391 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08312765559854 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56675809808746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84081238076373 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07973528189286 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08276994002990 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56766401326225 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84081939422474 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07923137864882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08242403375292 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56912034091293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84090238885040 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07868420592687 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08211589406069 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.56957097067725 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84083926600908 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07826511515403 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08181795096067 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57064497717627 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84087708594805 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07779638793149 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08155816407123 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57082520540219 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84077218041833 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07745451070790 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08130928370476 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57175673683550 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84078112610887 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07706588334671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08109537733981 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57186325197671 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84067252620073 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07678897420167 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08089012770869 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57267563331619 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84067546717446 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07646162095686 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08071750003279 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57270583222031 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84056657127762 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07624861194260 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08054902644054 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57344193784080 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84056823597895 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07597434319311 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08040986217444 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57339691941221 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84045834176928 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07581045839687 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08027356877064 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57402925409240 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84046943631512 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07558243639528 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08016446229116 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57390519586946 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84036484248944 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07545641159774 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08005377385284 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57446813740398 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84038721693432 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07526782735814 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07996817786400 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57427672342475 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84029440255050 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07517688738090 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07987987582160 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57479941904393 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84030995902101 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07502057513387 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07981254878326 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57457339494185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84022397048083 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07495422138980 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07974158833257 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57505787220598 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84025807977898 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07481999011925 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07969015038362 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57478777210892 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84017565986376 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07477882412909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07963355201284 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57523813328770 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84020688983455 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07466288939355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07959460917130 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.314E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.276E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.959E-03 -- reset to 5.000E-03 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 7.57495436874528 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.84013962774713 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07464281356480 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07954858518481 at nshe,nfasti = 5 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 35087 TA= 7.00000E+01 CPU TIME= 8.07500E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 29.0047283333334 %check_save_state: izleft hours = 50.9158333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.000000E+01 NSTEP= 35087 Hash code: 84788270 ->PRGCHK: bdy curvature ratio at t= 7.1000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 70.000000 ; TG2= 71.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8960E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 70.000000 TO TG2= 71.000000 @ NSTEP 35087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.68748E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 39= 1.18038E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 39= 1.18037E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.28570E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.68748E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 39= 1.18038E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 39= 1.18037E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.28570E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 2.826E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.96195799999987 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.11674920858837 q( 3 )= 6.03824808528602 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9325E+00 8.4368E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.95231305166422 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00309540155483 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.60617747934604 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 3.19236365381578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37735728412782 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42021680335800 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.36780239168447 at nshe,nfasti = 7 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.317350320809547 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.53359515725702 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.51190169781915 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.63860007160686 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.05869052072703 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.86001694751759 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37099436524313 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41345697018503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25205537773255 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72056825674040 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80079785670716 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.75634759872058 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31055927705361 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35781889923449 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20615673933780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74019214494198 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65384918637250 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66969345292102 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.26616180036486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31738798313701 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17367773673114 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75174458013417 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.56097278511338 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.61401972547615 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.23677812332745 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.28898350055433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.14988262363224 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.76243399576436 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49751862737790 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.57694196352167 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.21643624962754 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.26811789575733 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.13170725776759 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76947797961211 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.73474983482907 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73752989351527 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.36056677792460 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38016440351777 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21076157771565 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75506993917866 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.69306104490948 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69874969530784 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34101587253583 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36480366254391 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19706094840891 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.76367888428177 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.66937797435870 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68604977962293 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.33279797039181 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35512897385996 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18790294394946 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.77282750541447 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.65108883202448 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67609889286419 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32702074986558 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34780834376671 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18074353182121 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78134364902890 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.63707055843168 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66861722100346 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32294716312569 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34225641925865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17513670950411 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.78944176157930 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.62626249329144 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.66319692904423 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32011396865748 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33810524523575 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17079170083926 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.79811462156890 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.61788818353637 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.65927006532618 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31824535943222 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33509098550519 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16746834214745 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.80647953879571 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.61124636725662 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.65652530740556 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31716241821227 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33300521302972 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16497328165967 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.81428782262605 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.60605342002208 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.65472220620850 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31669100417418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33168251614240 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16320051487097 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.82024933914737 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54504895747449 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68922894097234 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37591263825701 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38844172551965 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21732476364688 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82144832420664 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54350538053292 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67548852903069 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37079202094239 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38587209930257 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21445023937592 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.82837433801600 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54329763636158 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67562820496214 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37120267103926 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38591316574982 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21397498854126 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.83451395410373 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54225194786068 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67626192733959 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37212623408795 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38643638450566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21398310960900 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84016009998623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54133056991166 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67720627187104 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37334418407447 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38728309229106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21431474200117 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.84547220484655 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54069707318589 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67837743563783 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37473094658556 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38837964376107 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21489985190174 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85052340052138 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54038926399788 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67990637577335 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37636970900877 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.38969759749536 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21570057160376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85533108501568 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54039082555816 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68158152403491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37810085285696 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39118352208568 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21668172235612 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.85992996845165 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54069229848941 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68339126659467 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37993867691462 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39281331244932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21781444219504 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86434220250909 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54126580362220 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68526298684627 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38186215548218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39455685799840 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21906722736712 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.86857762226307 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54207037596101 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68723924420043 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38385257637119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39639705199738 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22041997874945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87252459137653 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54308299234205 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68934880288598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38589798219539 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.39831333786913 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22185752089007 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87616725324839 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54429214701845 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69156316481385 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38798345431846 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.40028777721792 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22336251703489 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.87956071754666 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00377870456521 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54567801478035 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69386831886257 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39009771574811 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.40230810542960 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22492053190688 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88279336501578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00767104916111 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.54722310768973 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69626034650981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39222849341467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.40435902298935 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22651507266048 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.87321095046643 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45637246034072 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67570636777878 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39752230788321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41059042793973 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23575299775031 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88033072932377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00125420444141 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.45752932858078 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67315824253016 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39878455187781 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41175802895277 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23580499305996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88483779923182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00475121117415 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46016437136890 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67553575403887 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40071218543139 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41364075235207 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23719322457474 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.88782309141557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00781836107016 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46232671353035 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67797215859762 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40267890314095 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41556362985860 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23870524224282 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89048348194036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01073365640379 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46433480248202 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68040334807227 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40462319259542 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41747920006243 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24024446869726 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89301672835402 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01354794368851 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46628448526319 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68280838953644 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40653403285287 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.41937418116006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24178486490488 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89543743212353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01626626765199 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.46820897909983 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68517893873598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40840324622225 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42124128545230 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24331319522881 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89772925949889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01888635476896 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47012320343321 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68751113862113 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41023066562395 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42307665158652 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24482206883441 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.89993768058981 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02141564837207 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47203075950616 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68980273611902 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41201558009346 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42487591652216 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24630945886453 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90207453073042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02385727636317 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47393750181503 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69205284559326 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41375578818040 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42663671487919 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24777184845518 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90414334553594 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02621306148698 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47584074557963 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69425832822349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41545200212360 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42835923978331 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24920658535350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90614625447224 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02848495807644 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47773760029500 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69642022147311 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41710448354364 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43004250083621 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25061145873057 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90808591676028 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03067559164377 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.47962548462224 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.69853813286004 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41871297908782 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43168536701691 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25198553906350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.90996489033397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03278767510560 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48148704854030 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70060907003187 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42027715111053 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43328712437275 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25332812948468 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91178511472142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03482373929415 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48333138378445 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70263347709565 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42179750727370 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43484751802472 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25463774611393 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91354845929688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03678664675102 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48515820336620 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70460686451163 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42327355634973 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43636617634809 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25591443180882 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91525675661464 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03867900320680 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48696269489897 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70652779832560 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42470500822117 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43784282866836 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25715842369356 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91691199826495 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04050301046422 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.48873755982150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.70839565777937 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42609123683676 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43927739735337 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25836958342647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.91851509227472 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04226117323702 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00052474477117 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49047828276084 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71020959053597 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42743423788290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44067010174290 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25954763460937 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92007431017749 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04395618264835 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00231588346524 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49219731922789 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71202809204587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42879098085106 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44202931391401 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26069450399537 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92159246290644 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04559163948568 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00404533687150 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49388287662449 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71370598140283 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43001859945752 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44333548444142 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26180623683662 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92306265216816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04716846668127 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00571361307845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49553976338769 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71532499879181 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43120303448942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44460012697659 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26288499476026 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92448494175767 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04868843920507 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00732243431803 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49716613575535 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71688857485264 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43234515912592 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44582415863680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26393154009137 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92586296735391 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05015291226858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00887318347371 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.49876633795098 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71847686725040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43352148514709 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44701904314819 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26494825330683 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92719466212391 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05156474018678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01036884354890 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50033074730332 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.71997539324170 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43461769055984 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44816969898296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26593296142072 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92848234178595 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05292583000297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01181139159595 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50186196251944 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72142190327464 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43567498104594 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44928192552397 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26688686258708 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.92972650080220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05423784014478 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01320255655428 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50335979888225 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72281743145105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43669401552571 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45035669181662 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26781055597271 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93092906481972 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05550270546065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01454427886185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50482379177457 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72416336946771 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43767580063426 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45139478086674 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26870464148825 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93209134988031 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05672218913089 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01583835146924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50625348790531 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72546093757714 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43862133724568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45239700038658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26956967962044 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93321445858791 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05789791873158 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01708644581942 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50764843166853 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72671118340315 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43953158428885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45336417227166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27040626631569 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93429983284440 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05903162869559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01829035903729 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50900910564396 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72791529324128 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44040750725281 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45429708379723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27121502025397 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93534817989827 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06012469941760 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01945151611036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51033493068637 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.72907401514349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44124992796721 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45519654813488 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27199655290930 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93636108457564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06117878386555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02057162738319 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51162680836756 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73018880755215 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44205990301747 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45606358314618 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27275154850332 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93733988008151 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06219544617477 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02165226948824 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51288455243303 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73126097758719 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44283850394403 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45689919540794 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27348069426214 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93828466664591 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06317560291538 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02269443746043 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51410753029367 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73229094633658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44358665480415 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45770427988433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27418465975367 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93919666937713 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06412070438045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02369963434661 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51529682734768 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73328030068847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44430516733559 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45847964547365 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27486412944757 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94007719883247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06503202094832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02466919543679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51645267287400 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73423016429858 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44499524731708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45922631378490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27551962690313 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94092722970990 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06591075543697 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02560436130314 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.51757562281193 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.73514198335890 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44565743690860 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.45994502191528 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.27615195770758 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.412E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.414E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.92362555110653 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04771736442183 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01582475807714 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42214501926476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67542642184598 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41096691374218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42680760456735 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25075412854247 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93498705653519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05163504579257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01993155240374 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41880238577739 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67691314070754 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41533991947547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42821445074695 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25003576516959 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93743478883092 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05253471855351 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02086324801918 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41925472902407 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67744076560848 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41601079008852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42876585644208 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25023860969374 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93790445862170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05302605374447 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02135560674845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.41970349229595 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67794274770780 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41650338018743 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42923841749506 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25057878373982 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93820148658211 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05348761389900 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02182478581453 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42016300885131 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67841442203159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41691950466101 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.42968190353664 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25095409742652 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93852753446479 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05395735193613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02230853186911 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42063117313664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67886590225655 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41729338661177 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43010378019785 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25133512991737 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93887554119619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05442817925215 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02279657419398 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42110380926136 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67930108839882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41763881983482 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43050645895553 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25171023040950 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93922791857986 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05489176015619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02327863967501 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42157578925453 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.67972021120180 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41796223415331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43089116018634 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25207429937690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93957500311517 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05534312907493 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02374877464033 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42204275271465 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68012298401384 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41826716356814 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43125875784924 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25242508666726 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.93991240163081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05577979294776 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02420401538845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42250154726471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68050905930756 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41855587870181 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43161004473610 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25276175743306 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94023846652503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05620076126397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02464316514121 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42295001656988 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68087840623527 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41883007051528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43194581991764 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25308424484814 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94055293062654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05660591851688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02506603042434 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42338689950581 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68123134117893 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41909111480244 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43226691197234 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25339284914441 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94085602117763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05699558988405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02547293199068 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42381153478511 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68156727653514 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41934016117322 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43257415559870 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25368809842165 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94114838638335 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05737040620244 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02586452192117 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42422367427811 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68188747641200 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41957816462920 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43286835543212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25397062172900 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94143066467571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05773107233206 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02624154194592 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42462339546346 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68219347448134 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41980604231645 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43315029351213 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25424109390357 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94170348811564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05807832232867 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02660476512157 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42501094811016 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68248611762569 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42002455537376 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43342070687101 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25450019273115 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94196745182791 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05841288247397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02695495362185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42538666597380 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68276617769519 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42023437040197 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43368028141866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25474857262542 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94222309815641 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05873543780816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02729282288540 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42575092639282 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68303440712268 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42043605357467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43392964084160 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25498685329636 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94247089925920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05904661789705 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02761902605997 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42610412083876 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68329150579563 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42063010149186 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43416935244879 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25521559919139 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94271125700554 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05934699950600 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02793415798567 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42644667774889 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68353810848893 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42081693779193 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43439993170609 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25543534674833 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94294451682251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05963711427352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02823876379640 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42677899855212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68377478998520 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42099693895910 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43462184970891 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25564658888409 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94317098507981 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05991744262773 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02853333197987 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42710140245172 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68400206773963 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42117043836491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43483553331313 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25584977606114 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94339091388287 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06018841770806 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02881830100423 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42741424318810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68422041358425 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42133772474962 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43504136794085 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25604532064980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94360453138823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06045044380105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02909407843816 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42771789560658 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68443023994979 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42149905104222 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43523970777724 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25623360090355 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94381204341009 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06070389463400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02936103937320 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42801268009552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68463193881882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42165465083964 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43543087820667 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25641496466891 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94401363479543 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06094911519948 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02961952904858 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42829888069630 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68482585434837 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42180473906547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43561518049278 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25658973103849 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94420948432790 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06118642575369 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02986986606001 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42857672154656 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68501232506768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42194952377058 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43579290098402 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25675817333353 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94439973493755 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06141611914434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03011234199893 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42884647010457 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68519162988333 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42208914934341 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43596428707046 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25692058402761 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94458451405150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06163846850754 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03034722918194 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42910837783541 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68536403175847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42222375593705 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43612957029178 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25707721805947 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94476395288364 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06185373267489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03057478534471 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42936265963350 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68552979165946 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42235352687760 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43628898053545 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25722831431271 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94493821097273 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06206217284824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03079526927612 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42960955923196 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68568917693942 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42247865063140 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43644274189790 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25737409825661 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94510740694603 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06226402314819 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03100891428637 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42984928056717 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68584241694717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42259927871100 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43659106092155 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25751477984808 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94527166189032 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06245950745282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03121594342808 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43008207773062 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68598973767795 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42271556089314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43673414048683 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25765055846224 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94543110038956 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06264884201965 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03141657249391 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43030867576630 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68613135261208 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42282763424753 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43687216925933 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25778162261854 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94558583760771 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06283223176285 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03161100665067 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43052880618812 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68626746709863 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42293562972664 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43700532140080 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25790814837334 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94573598431227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06300987194410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03179944149602 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43074249689523 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68639828232022 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42303967528486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43713376523585 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25803030240382 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94588165391744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06318195002516 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03198206476927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43094991900641 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68652398018976 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42313989625241 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43725766324621 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25814824377152 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94602297049133 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06334865217785 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03215906403801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43115124126046 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68664473881057 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42323641440813 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43737717241313 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25826212430414 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94616013065750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06351018832446 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03233064771848 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43134670458513 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68676073461630 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42332934645124 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43749244330490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25837208857333 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94629316770361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06366670169141 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03249696418124 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43153639336532 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68687213277380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42341880841989 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43760362104236 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25847827591331 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94642217824462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06381834727281 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03265817081120 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43172044359150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68697910067370 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42350491728524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43771084772633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25858081569634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94654726924336 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06396528014415 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03281442529166 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43189902030577 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68708179365782 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42358778502924 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43781426061157 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25867983574398 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94666854742837 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06410764898429 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03296587949960 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43207226031398 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68718034506359 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42366751784440 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43791399033732 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25877546184270 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94678612109462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06424559091373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03311267433623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43224025962998 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68727485202232 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42374420949311 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43801016362216 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25886781132257 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94690009809779 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06437925507897 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03325496125789 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43240321158721 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68736550656658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42381795022481 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43810290467340 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25895699996650 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94701057417366 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06450878034775 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03339288245556 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43256126666651 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68745246470072 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42388885934239 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43819233175166 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25904313796189 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94711764813709 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06463430121454 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03352657601289 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43271456620314 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68753586628336 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42395703988224 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43827855966070 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25912633077793 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94722141546779 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06475594690530 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03365617504818 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43286324485082 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68761584479222 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42402258769081 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43836169995077 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25920668008566 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94732197091021 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06487384194388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03378180796410 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43300743522680 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68769252933019 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42408559602740 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43844186063662 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25928428400083 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94741939961880 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06498810419821 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03390359669059 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43314726874150 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68776604813301 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42414615556547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43851914635423 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25935923727976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94751379579548 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06509885060202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03402166213840 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43328286581084 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68783651648415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42420435429431 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43859365805274 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25943163133756 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94760525166704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06520619425071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03413612169187 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43341434649557 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68790405006143 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42426027745679 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43866549306883 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25950155415515 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94769385541727 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06531024367504 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03424708810811 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43354182650206 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68796876109721 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42431400806975 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43873474657012 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25956909109285 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94777969177390 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06541110245942 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03435466900048 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43366541490103 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68803075944489 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42436562785713 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43880151060034 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25963432453586 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94786284093607 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06550887138928 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03445896952192 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43378522897320 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68809014717451 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42441521357783 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43886587358658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25969733391261 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94794338511495 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06560365001814 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03456009367446 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43390137969010 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68814702546687 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42446284056837 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43892792109419 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25975819600316 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94802140397929 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06569553369534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03465814117852 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43401397490079 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68820149258831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42450858173798 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43898773531224 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25981698492139 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94809696924420 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06578460926167 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03475320303365 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43412311194135 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68825363723909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42455250890930 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43904539771636 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25987377192975 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94817015202297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06587096489296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03484537148907 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43422889104528 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68830355191089 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42459468969132 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43910098479609 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25992862632203 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94824099193444 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06595468216488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03493473445299 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43433140902341 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68835132493460 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42463518990905 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43915457075179 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25998161500176 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94830954904441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06603583773891 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03502137402664 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43443074579506 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68839701850146 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42467407644860 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43920622745010 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26003280171596 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94837595048579 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06611452167541 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03510538201233 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43452700381837 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68844071931564 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42471141088464 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43925602433793 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26008224858350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94844026545698 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06619081656324 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03518684468455 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43462029270022 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68848252698592 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42474725064892 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43930402882298 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26013001627547 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94850254824213 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06626479685551 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03526584020892 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43471070575231 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68852251804903 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42478164887733 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43935030402668 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26017616257105 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94856286928849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06633653760470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03534244767983 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43479832884340 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68856076683517 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42481466232297 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43939491289993 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26022074385773 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94862129044059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06640610979937 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03541674208547 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43488324548774 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68859734615096 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42484634808007 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43943791734772 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26026381480808 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94867787061738 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06647358149306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03548879536022 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43496553746116 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68863232518327 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42487675856720 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43947937609531 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26030542781350 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94873266726102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06653901863038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03555867726339 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43504528442444 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68866577016403 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42490594403802 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43951934558146 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26034563344701 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94878573637441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06660248509116 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03562645542489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43512256379668 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68869774479437 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42493395290650 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43955788025559 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26038448056061 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94883707935655 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06666402301891 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03569217814172 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43519743280348 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68872830730572 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42496083248895 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43959503291480 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26042201642611 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94888677479666 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06672369751156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03575591298774 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43526997568090 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68875751442020 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42498662818829 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43963085420597 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26045828651058 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94893490020113 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06678157522840 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03581772878923 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43534026996621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68878542358390 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42501138282478 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43966539305369 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26049333471604 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94898150753178 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06683771489967 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03587768766349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43540838580418 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68881209237714 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42503513713001 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43969869618272 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26052720347756 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94902664571669 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06689217201901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03593584847661 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43547439041552 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68883757301945 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42505793076056 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43973080866486 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26055993364953 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94907036168339 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06694499963554 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03599226758336 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43553834892115 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68886191585847 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42507980205093 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43976177403224 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26059156468044 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94911270078622 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06699624880770 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03604699927855 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43560032448582 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68888516927263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42510078796525 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43979163430119 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26062213466876 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94915370688535 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06704596874245 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03610009591662 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43566037834193 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68890737964281 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42512092403017 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43982042993073 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26065168033821 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94919342253812 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06709420701518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03615160815079 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43571856062121 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68892859153192 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42514024445967 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43984819995112 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26068023716311 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94923188884773 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06714100955182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03620158490876 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43577493751705 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68894884774356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42515878218370 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43987498200484 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26070783940686 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94926914353873 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06718641929767 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03625007198351 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43582955934663 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68896818341779 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42517656914550 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43990081246313 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26073452000708 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94930522613140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06723047952786 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03629711553526 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43588248441174 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68898664282571 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42519363525191 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43992572609408 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26076031089476 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94934017513597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06727323252286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03634276066924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43593376707660 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68900426277976 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42521000705349 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43994975343353 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26078524253495 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94937402744413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06731471887368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03638705068679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43598345921880 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68902108009870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42522571370396 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43997292807638 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26080934503106 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94940681888627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06735497782065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03643002746614 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43603161179132 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68903713048943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42524078342698 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.43999528246112 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26083264862291 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94943858335489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06739404719789 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03647173143120 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43607827308818 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68905244752661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42525524214515 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44001684704688 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26085517965806 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94946935365553 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06743196355261 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03651220163513 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43612348961303 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68906706339629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42526911479898 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44003765097007 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26087696449404 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94949916166646 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06746876228682 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03655147592196 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43616730647012 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68908100893232 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42528242572077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44005772223173 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26089802881276 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94952803829125 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06750447768738 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03658959095806 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43620976743502 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68909431366915 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42529519794969 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44007708777861 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26091839747428 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94955601337599 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06753914287780 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03662658216718 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43625091491570 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68910700583192 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42530745353329 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44009577348411 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26093809442875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94958311585576 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06757278994931 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03666248388120 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43629079005948 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68911911250970 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42531921367800 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44011380430280 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26095714281945 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94960937371707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06760544996569 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03669732935294 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43632943269457 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68913065974921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42533049888596 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44013120445904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26097556503960 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94963481399693 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06763715295345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03673115070687 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43636688150614 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68914167222355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42534132848254 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44014799681578 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26099338255715 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94965946294562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06766792803844 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03676397912220 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43640317401958 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68915217374265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42535172117479 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44016420359640 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26101061614212 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94968334599483 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06769780345113 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03679584483105 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43643834661537 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68916218712797 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42536169494538 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44017984623242 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26102728586160 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94970648768269 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06772680646503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03682677703902 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43647243444482 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68917173360146 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42537126709554 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44019494534332 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26104341102124 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94972891180895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06775496351940 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03685680406433 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43650547160824 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68918083398849 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42538045417033 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44020952079085 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26105901029305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94975064134471 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06778230018518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03688595330047 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43653749117128 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68918950888738 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42538927190356 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44022359162654 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26107410167864 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94977169856449 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06780884127958 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03691425134422 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43656852520277 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68919777753329 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42539773554410 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44023717625723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26108870256410 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94979210498489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06783461079656 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03694172390504 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43659860472231 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68920565824557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42540585966211 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44025029234874 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26110282966719 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94981188145098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06785963199365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03696839591229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43662775978545 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68921316858630 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42541365826044 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44026295694638 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26111649915561 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94983104815944 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06788392742560 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03699429154717 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43665601952883 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68922032537943 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42542114479402 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44027518648296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26112972664875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94984962371315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06790751863918 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03701943394781 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43668341209043 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68922714468804 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42542833212159 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44028699673131 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26114252716946 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94986762759064 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06793042691290 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03704384588755 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43670996500063 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68923364194688 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42543523262703 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44029840290777 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26115491523855 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94988507827486 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06795267278373 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03706754937754 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43673570445320 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68923983208270 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42544185825784 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44030941970594 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26116690489690 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94990199333254 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06797427600491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03709056559183 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43676065573570 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68924572929541 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42544822039704 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44032006119082 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26117850962875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94991838980988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06799525577171 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03711291511445 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43678484397998 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68925134659977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42545432978555 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44033034088847 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26118974246370 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94993428427797 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06801563074658 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03713461796432 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43680829322135 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68925669686459 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42546019685603 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44034027186510 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26120061599829 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94994969271155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06803541895362 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03715569346814 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43683102667420 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68926179234165 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42546583156482 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44034986664694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26121114233562 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94996463060932 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06805463788343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03717616038436 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43685306684890 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68926664479240 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42547124349689 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44035913732381 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26122133318103 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94997911297797 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06807330450523 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03719603691598 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43687443556461 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68927126548582 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42547644186494 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44036809556046 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26123119985247 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.94999315425237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06809143519751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03721534062488 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43689515389172 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68927566513008 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42548143544418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44037675253264 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26124075322046 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95000676843961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06810904586156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03723408856396 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43691524225980 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68927985400120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42548623268121 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44038511902907 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26125000380166 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95001996910807 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06812615193097 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03725229728923 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43693472046433 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68928384193193 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42549084166623 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44039320540198 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26125896176261 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95003276930514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06814276830019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03726998276924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43695360760749 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68928763824059 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42549527009390 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44040102158830 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26126763685364 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95004518169676 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06815890943309 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03728716051430 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43697192221640 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68929125188002 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42549952541148 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44040857726557 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26127603851910 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95005721855429 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06817458937432 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03730384558832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43698968225493 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68929469143832 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42550361477937 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44041588173951 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26128417590950 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95006889167503 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06818982167772 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03732005252133 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43700690505866 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68929796505497 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42550754499954 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44042294391231 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26129205780209 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95008021252207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06820461951501 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03733579543624 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43702360744048 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68930108054479 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42551132262163 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44042977237960 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26129969269318 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95009119220920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06821899568207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03735108805642 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43703980569942 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68930404539143 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42551495394176 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44043637544029 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26130708880505 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95010184141509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06823296252352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03736594361336 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43705551555899 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68930686667551 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42551844493463 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44044276102919 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26131425402180 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95011217053130 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06824653204915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03738037498351 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43707075227940 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68930955120716 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42552180136742 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44044893682386 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26132119598814 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95012218941382 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06825971570631 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03739439444295 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43708553045979 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68931210540187 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42552502875931 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44045491020213 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26132792206684 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95013190708160 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06827252415524 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03740801344476 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43709986378828 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68931453524356 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42552813247775 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44046068831948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26133443940545 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95014133271896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06828496853396 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03742124390478 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43711376602011 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68931684657533 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42553111750152 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44046627798318 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26134075483647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95015047606053 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06829705976152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03743409751878 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43712725089651 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68931904515367 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42553398864346 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44047168577038 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26134687498294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95015934620363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06830880829645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03744658549664 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43714033161251 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68932113644953 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42553675056005 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44047691804438 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26135280626303 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95016795170841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06832022414534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03745871855574 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43715302080308 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68932312560013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42553940766470 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44048198088336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26135855482359 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95017630085004 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06833131701247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03747050709150 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43716533068403 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68932501753487 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42554196422379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44048688017315 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26136412662716 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95018440163834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06834209632103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03748196120216 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43717727307787 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68932681696906 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42554442434716 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44049162160879 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26136952745445 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95019226174202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06835257114212 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03749309060058 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43718885935977 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68932852832971 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42554679191512 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44049621062152 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26137476283647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95019988863155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06836275030507 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03750390474211 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43720010049493 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68933015490207 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42554906904968 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44050065239968 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26137983813205 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.95020728955337 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06837264236155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03751441278479 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.43721100709592 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.68933170148829 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42555126087064 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.44050495208478 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.26138475857446 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 35587 TA= 7.10000E+01 CPU TIME= 8.22706E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 30.2732436111112 %check_save_state: izleft hours = 49.6475000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.100000E+01 NSTEP= 35587 Hash code: 111945293 ->PRGCHK: bdy curvature ratio at t= 7.2000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 71.000000 ; TG2= 72.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7840E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 71.000000 TO TG2= 72.000000 @ NSTEP 35587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.65763E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 41= 1.27220E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.20764E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 41= 1.27219E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.18009E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.65763E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 41= 1.27220E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.20764E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 41= 1.27219E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.18009E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.91559200000484 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.06174148016884 q( 3 )= 6.00829505256836 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9348E+00 8.4371E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.41580983717117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20830301559208 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21176316527506 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13324388620392 at nshe,nfasti = 4 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.14776425793089 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.15360555262733 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.23812376178648 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.34428416110029 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.44653363221145 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.53935907612657 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.62074060981152 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.69027303668667 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.74844889094621 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.79630605805620 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00485913463949 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.83524062225011 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00900842645016 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.86661964763756 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01229215085853 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.89171446273364 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01485243211093 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.91152390969078 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01683504926053 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.92698667596260 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01835257094097 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.93904278422232 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01948561738602 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.94825205293693 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02032084623981 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.95537213400171 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02092516988554 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.96083964323782 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02134677370222 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.96493782171245 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02162326119542 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.96794646166677 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02179419626503 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97013803970326 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02188181440430 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97168700225527 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02190890190275 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97272084980093 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02188307480862 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97353702138607 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02183114762946 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97290955259571 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02176045334678 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97213121111118 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02168022488221 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97223212975732 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02159117665970 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97230964749835 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02149958622671 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97231446559814 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02140995051141 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97227402107272 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02132198049389 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97220582954290 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02123858816800 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97210652609289 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02115907698049 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97201151606343 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02108653600068 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97188035205246 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02101922033559 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97177830063208 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02095738714778 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97168534995562 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02090021805714 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97159549548764 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02084978943776 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97151177560658 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02080466310861 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97142760906751 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02076363166512 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97137726435047 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02072806600482 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97131256050622 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02069500577544 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97127926782605 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02066497612696 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97122614874841 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02064115664908 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97120656137676 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02061902112651 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97116076930970 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02059781313244 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97114090981771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02058097804407 at nshe,nfasti = 4 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.509E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.285E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 9.97112541497024 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02056475495887 at nshe,nfasti = 4 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 36087 TA= 7.20000E+01 CPU TIME= 8.27371E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 30.8729736111112 %check_save_state: izleft hours = 49.0477777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.200000E+01 NSTEP= 36087 Hash code: 89760216 ->PRGCHK: bdy curvature ratio at t= 7.3000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 72.000000 ; TG2= 73.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6810E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 72.000000 TO TG2= 73.000000 @ NSTEP 36087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.62090E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 42= 1.27928E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.42446E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 42= 1.27928E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.37854E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.62090E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 42= 1.27928E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.42446E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 42= 1.27928E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.37854E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 3.000E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.49267099999997 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.99416160739675 q( 3 )= 5.96864482144715 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9368E+00 8.4374E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.34821357193194 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.35231129713027 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47877829943205 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.61381178595877 at nshe,nfasti = 6 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15585058294042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00223407811067 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.40272037685773 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.42751202596352 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46771938751859 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35386695773707 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22023337149037 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26354248416835 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.36705724842467 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41358170776821 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31700686531050 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21570226385282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18149029057635 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.32837221520609 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37977467159040 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29057335989918 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20368939923239 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13425937403375 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.30709661191442 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35907063684690 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.27171146823911 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19569687872174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10584647952032 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.29683936247881 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34723328610978 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.25860097444933 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18078166438154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04668556020719 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.24697986337486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46373997675062 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43960656808247 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31667348863357 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17459799039107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05359301037394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22608904625710 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44869231377994 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42760628627376 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30471170738433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19118008968985 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07721970708251 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22731894588954 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.44950748622420 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42798387991950 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30076708932619 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19875602210683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08874785746818 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23105238755533 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45393252678517 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43092812343200 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29921774134547 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20618840789157 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09833294567868 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23578109144208 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45967825701279 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43498534529034 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.29916113825583 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21432323389921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10745184316004 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.24103323746862 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46610994386965 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43999080806805 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30029034395821 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22276933583127 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11643619774372 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.24663988133237 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47292439869536 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44566804222535 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30233717762441 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23091045427644 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12530501951851 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.25237031143448 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47991245602523 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45172740428459 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30507817579931 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23913436163618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13418960592432 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.25816690117445 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48697609701262 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45810560238830 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30836020867344 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.14179777607800 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16544921492586 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.45918075758449 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41313068906034 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30217144949615 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.15738261051164 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18112587650475 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47442635354698 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42588087839347 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30414579579310 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.16672179528628 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18636956270386 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48152359344141 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43258139288168 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30756683956415 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.17427844558062 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19122520236850 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48800747151604 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43897560013926 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31144917570419 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18143532467677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19592329551878 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49420799931696 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44526815273389 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31556622795044 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18839672859989 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20056323264058 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50019813302898 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45147283385030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31983202436936 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19520395417012 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20515405092736 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50601729604490 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45759659103064 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32416716182149 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20159021122286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20968523958196 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51166047226870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46361272877628 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32853221759473 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20777368018905 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00513672575100 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21416449184756 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51715478335957 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46953416396094 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33289641021746 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21368165619318 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01107001995080 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.21857875775193 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52251032608549 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47533253952679 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33722500218336 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21939233001875 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01677357768259 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22290147069498 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52771047732014 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48096971089225 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34151074019147 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22492387371144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02229121695065 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.22714321764749 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53274669079150 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48647205360101 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34574106126825 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23028027631127 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02766708891326 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23130424315315 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53764853971376 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49183193177456 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34991160986843 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23546806689424 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03305623692536 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.23537558505673 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54241492847365 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49703549479027 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35401026148959 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17187970225718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13381341960050 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46581975591997 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40817663458388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30355545660219 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18326221592595 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14695794097893 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48284804507534 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42346088888355 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30711326389950 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.18721292800708 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15083049847113 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48816922462084 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42852759291582 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31013453152571 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19101285226547 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15415713762980 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49239371731628 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43288540423226 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31326412156631 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19481020598223 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15724836693527 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49621844598544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43701395259975 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31640472813499 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.19857882998342 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16021770318744 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49981947658912 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44098598914087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31950427890776 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20228661007379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16310911504341 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50326488147636 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44482422326335 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32254770520957 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20591451559688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16594233073530 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50658502533430 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44854563278049 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32552574331935 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.20944560168860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16871516869768 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50979108504281 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45215415618626 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32843250038848 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21286666814738 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17142833358925 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51288706836050 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45564802757493 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33126239823765 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21607183661064 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17407914543227 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51587664874279 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.45902616424278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33401274356805 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21914589536907 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17666508773513 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.51876509240727 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46229235305977 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33667857536799 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22211756492227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.17918844739916 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52155531434158 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46544827707573 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.33926382875162 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22498829852216 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18164626673492 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52424577286325 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46849209148380 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34176554373528 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22776109363831 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18403864902138 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52683724449266 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47142736418331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34418508924068 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23044029191716 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18636502312902 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.52933285117039 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47426014836583 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34652360415342 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23302749421975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18862043794337 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53172939240662 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47698226930014 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.34877816906918 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23552286121962 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19080432891865 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53403005735360 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.47959610253531 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35095183016182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23792810890793 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19290753585198 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53623745055279 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48210434519806 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35304734920511 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24024633657737 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19494413389950 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.53835692330244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48451480097121 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35506792576900 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24247959618954 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19691661312725 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54039259152212 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48683421638259 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35701544539088 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24463209539593 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19882767118344 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54234807479211 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.48906636626645 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.35889116902268 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24670801658886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20067842492727 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54422490337860 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49121070388353 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36069665198168 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24870763566846 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20246386844653 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54602380645282 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49326941592270 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36243308861200 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25063434889490 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20418612416947 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54774771530104 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49524679982639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36410353546395 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25249011778822 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20584937538729 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.54939954192751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49714546781625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36571028749763 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25427558314365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20745239617701 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55098141080072 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.49896810955668 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36725487813143 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25599337533072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20899716151645 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55249608792880 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50071772005518 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.36873915770068 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25764587163131 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21048547900558 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55394604421643 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50239682310484 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.37016469818433 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.25923507722363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.21191777205780 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.55533394647280 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.50400822787808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.37153217443410 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.606E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.139E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.20694656000806 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11271529808382 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.46547855937748 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40552458843115 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30445628016400 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21403267670040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12258919525764 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.47966026039690 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41806527316568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30595495043782 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21452479072143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12412725279470 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48189301230250 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41991636993577 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30644577262550 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21511377255046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12511604020692 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48312134249374 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42107996966856 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30707470074655 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21579614474095 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12587891389428 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48402951203683 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42208571653887 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30776621779241 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21652419426700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12654815634920 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48479333541440 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42301689777308 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30848046760249 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21726532874853 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12717429165159 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48547808146303 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42390002377470 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30919740331897 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21800428804471 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12777836412338 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48611225126815 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42474585441402 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.30990575514680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21873394391915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12836796938446 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48670951094369 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42555914527783 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31059887081697 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.21945031850088 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12894539054085 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48727681413826 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42634169399842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31127319959381 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22015107188641 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12951093354471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48781851248325 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42709494785371 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31192677262151 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22083497929883 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13006438391487 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48833691598827 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42781948970609 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31255870641129 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22150113491014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13060516541481 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48883375861013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42851640109242 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31316857855370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22214866229435 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13113266574184 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48931058430532 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42918685922538 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31375640395842 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22277798049789 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13164613859307 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.48976845112944 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.42983181588091 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31432253156615 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22338928431947 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13214591480731 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49020828508532 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43045196405137 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31486744178441 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22398278791028 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13263175726621 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49063077748677 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43104764334648 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31539165750449 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22455853999559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13310369778920 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49103664443094 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43162041818842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31589590872345 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22511665486796 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13356174856485 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49142660164318 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43217106037119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31638087030194 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22565750165179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13400593442363 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49180108275720 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43270021876766 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31684732616971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22618148053275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13443592291207 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49216020426340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43320819027223 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31729579405207 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22668904108612 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13485214319514 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49250483693791 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43369630454042 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31772690032253 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22718051868973 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13525544340899 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49283572144853 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43416537180075 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31814132494168 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22765634283043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13564591758006 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49315339130671 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43461615598080 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31853967334879 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22811688809370 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13602380711728 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49345832622491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43504929989263 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31892249914575 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22856252622366 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13638936391746 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49375099077713 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43546551136863 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31929049711678 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22899355880353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13674285165316 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49403181796258 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43586538179399 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31964420721932 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22940313011013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13708458084148 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49430125003608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43624954588951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.31998416155305 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.22979614052010 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13741486091193 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49455967153663 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43661859067711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32031093101412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23017610309317 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13773395738709 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49480746232752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43697307765015 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32062496350723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23054341435764 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13804216727978 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49504502024578 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43731357988887 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32092677939700 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23089844130642 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13833980358914 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49527271960977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43764064061571 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32121687946549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23123817980628 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13862705315512 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49549086398439 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43795476819631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32149572953779 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23156136669570 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13890435815377 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49569986994661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43825648744031 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32176377217216 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23187366586389 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13917194345376 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49590011281122 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43854629620707 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32202142378471 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23217538865661 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13943014992408 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49609192591934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43882466046917 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32226907213959 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23246687933759 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13967932173826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49627559350635 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43909199833811 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32250711414878 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23274847725368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13991968838044 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49645141243664 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43934872561033 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32273592756952 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23302047627056 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14015147351257 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49661966643087 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43959520832077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32295585671487 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23328319741128 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14037495901912 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49678064028698 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.43983189318776 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32316726132546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23353694003598 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14059041253392 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49693459445289 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44005914166374 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32337046954772 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23378199434665 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14079807219596 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49708184308414 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44027736562773 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32356580660066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23401866340840 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14099827490499 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49722267556159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44048693679253 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32375358251315 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23424723445018 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14119128151823 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49735735021297 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44068819784537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32393409483096 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23446797812718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14137732287743 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49748610533752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44088143758245 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32410762116114 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23468115420994 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14155664066926 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49760918117675 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44106699768650 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32427443526302 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23488701217848 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14172948052244 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49772681753231 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44124520007693 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32443480354915 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23508580369447 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14189606337770 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49783923709282 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44141633949428 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32458897830457 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23527777341030 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14205660790513 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49794665584400 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44158069913282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32473720309905 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23546315664624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14221132656098 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49804928140645 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44173855028221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32487971084005 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23564216345302 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14236042042515 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49814732079681 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44189015826678 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32501672611066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23581501892924 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14250404157837 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49824099158451 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44203576972820 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32514846422296 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23598193307119 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14264236837291 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49833044509604 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44217559575527 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32527512155524 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23614311605956 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14277562927850 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49841584412679 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44230982975016 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32539688256476 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23629876849909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14290402163158 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49849736486912 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44243875410090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32551396309541 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23644908115557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14302772515482 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49857521024233 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44256259312020 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32562654952464 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23659424170464 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14314689880961 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49864949452407 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44268152655875 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32573481556788 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23673441064252 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14326169078158 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49872037266534 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44279575978305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32583893070261 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23686977339670 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14337225206713 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49878798697965 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44290548673359 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32593905764884 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23700053664750 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14347870527001 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49885244513881 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44301088070283 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32603535413850 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23712686877699 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14358126165700 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49891393960932 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44311218655229 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32612798454102 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23724892770379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14368007980377 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49897261344795 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44320958804758 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32621709312108 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23736684282142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14377528437326 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49902857758115 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44330318053846 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32630280921965 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23748074625806 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14386700453983 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49908194872049 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44339311121808 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32638525906575 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23759077014522 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14395536720482 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49913284083367 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44347952660269 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32646456580261 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23769704534756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14404049526857 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49918136324034 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44356256759382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32654085817498 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23779969935954 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14412250668969 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49922762051975 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44364236926105 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32661425573417 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23789885588152 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14420151439832 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49927171043417 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44371905835138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32668487221279 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23799463446043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14427762784737 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49931372893932 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44379275926960 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32675281757653 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23808715226161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14435095388598 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49935377116132 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44386359447944 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32681819586015 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23817652248717 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14442159420402 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49939192341049 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44393167691024 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32688110406955 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23826285453108 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14448964991092 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49942826763060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44399711575822 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32694164190549 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23834624645036 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14455521148092 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49946288625278 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44406001827842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32699990180515 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23842680412284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14461837388433 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49949586017512 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44412048734331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32705597286976 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23850462950828 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14467922798641 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49952726583190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44417862146892 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32710994076929 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23857981798686 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14473785901516 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49955717484898 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44423451436451 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32716188751902 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23865246128958 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14479434923722 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49958565553252 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44428825582751 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32721189187897 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23872264352705 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14484876542555 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49961276972179 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44433992862587 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32726002835898 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23879045238068 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14490119205074 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49963857759966 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44438961398975 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32730637015630 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23885597089333 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14495170194984 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49966313554099 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44443738802724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32735098759852 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23891927761032 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14500036423084 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49968649606911 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44448331966116 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32739394643844 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23898044898246 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14504725062797 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49970872408516 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44452749397418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32743531195137 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23903955974990 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14509242885456 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49972987387561 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44456998268726 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32747514576056 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23909668208633 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14513596336315 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49974999625491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44461085350919 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32751350709123 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23915188546683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14517791584955 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49976913944194 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44465017113363 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32755045293603 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23920523629579 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14521834335088 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49978734556902 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44468799334807 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32758603505033 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23925679890249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14525730365716 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49980466065383 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44472438204931 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32762030842448 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23930662375682 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14529485581315 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49982112872382 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44475939562404 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32765332412902 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23935477853331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14533104943574 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49983678917265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44479308848167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32768513054304 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23940132603504 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14536593499416 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49985167989119 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44482551303272 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32771577423311 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23944631690040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14539956297630 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49986583784428 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44485671985068 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32774530006109 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23948980255687 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14543198119164 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49987929810919 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44488675712829 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32777375090697 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23953184095777 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14546323159602 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49989209304463 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44491567069710 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32780116777138 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23957248397142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14549335795810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49990425402106 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44494350481954 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32782759041502 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23961177820561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14552240035479 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49991580869273 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44497030073538 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32785305652811 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23964977070974 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14555039968148 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49992678718961 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44499609988542 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32787760275888 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23968650672470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14557739552192 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49993721802031 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44502094191958 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32790126430868 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23972202970344 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14560342580611 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49994712770070 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44504486442568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32792407484239 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23975638202729 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14562852732824 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49995654157407 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44506790340051 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32794606670034 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23978960308440 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14565273329239 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49996548331036 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44509009336422 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32796727092153 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23982172897704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14567607446270 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49997397545610 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44511146704069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32798771719111 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23985279780317 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14569858367260 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49998203963967 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44513205630054 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32800743422284 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23988284684083 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14572029279043 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49998969666777 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44515189185457 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32802644963672 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23991191129705 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14574123189117 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.49999696636990 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44517100296494 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32804478985780 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23994002490562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14576142954051 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50000386763391 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44518941772314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32806248029722 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23996722002020 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14578091292826 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50001041846921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44520716309050 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32807954534742 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.23999352842528 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14579970905370 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50001663623698 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44522426499311 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32809600850067 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24001897995316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14581784252777 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50002253507408 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44524074637499 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32811189251723 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24004360324526 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14583533730590 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50002813155450 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44525663205587 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32812721880887 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24006742621959 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14585221688347 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50003344116387 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44527194549119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32814200807434 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24009047583813 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14586850388595 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50003847812324 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44528670868086 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32815628026428 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24011277822296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14588422010595 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50004325596244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44530094273162 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32817005459831 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24013435863292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14589938652682 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50004778757200 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44531466790685 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32818334956879 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24015524139783 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14591402328443 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50005208516120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44532790359000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32819618289154 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24017544995028 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14592814971973 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50005616042749 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44534066839459 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32820857161044 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24019500733860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14594178490036 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50006002456074 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44535298026883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32822053216084 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24021393589115 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14595494727705 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50006368821187 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44536485632931 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32823208026480 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24023225567230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14596765306925 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50006716092138 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44537631248188 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32824323059144 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24025001088594 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14597994887663 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50007045536609 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44538736980194 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32825399963732 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24026720360721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14599183027182 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50007357838563 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44539803987072 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32826440036627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24028384755915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14600330464710 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50007653792962 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44540833617351 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32827444584237 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24029996040368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14601438511357 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50007934221023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44541827264336 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32828414895437 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24031555945454 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14602508530881 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50008199902682 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44542786264393 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32829352206142 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24033066159109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14603541875955 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50008451586074 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44543711908295 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32830257710833 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24034528321029 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14604539863922 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50008689985339 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44544605440163 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32831132562357 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24035944016188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14605503775250 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50008915768699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44545468056992 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32831977870117 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24037314772819 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14606434819918 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50009129577126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44546300887166 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32832794682887 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24038642072540 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14607334174576 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50009332026750 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44547105033646 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32833584025622 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24039927341502 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14608202944998 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50009523683531 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44547881551674 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32834346880934 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24041171963222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14609042224448 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50009705103470 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44548631456821 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32835084197855 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24042377275303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14609853087486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50009876824447 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44549355720998 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32835796886014 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24043544570996 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14610636557442 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010039354003 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44550055294154 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32836485826370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24044675095183 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14611393610554 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010193166041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44550731075579 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32837151859230 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24045770053414 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14612125187734 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010338712783 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44551383930969 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32837795795821 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24046830612093 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14612832196714 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010476426159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44552014695424 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32838418419065 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24047857892877 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14613515507700 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010606711768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44552624168280 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32839020477633 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24048852982049 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14614175960471 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010729957551 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44553213119386 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32839602694846 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24049816930660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14614814365283 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010846534082 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44553782291003 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32840165768969 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24050750748454 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14615431497100 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50010956787349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44554332391000 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32840710366619 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24051655414199 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14616028105058 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50011061049310 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44554864103438 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32841237132841 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.24052531875315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14616604912476 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.50011159637431 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.44555378088361 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.32841746690756 at nshe,nfasti = 6 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 36587 TA= 7.30000E+01 CPU TIME= 7.64231E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 32.1320372222223 %check_save_state: izleft hours = 47.7886111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.300000E+01 NSTEP= 36587 Hash code: 65781273 ->PRGCHK: bdy curvature ratio at t= 7.4000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 73.000000 ; TG2= 74.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8510E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 73.000000 TO TG2= 74.000000 @ NSTEP 36587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.47626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 44= 1.42108E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 44= 1.42108E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.20304E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.47626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 44= 1.42108E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 44= 1.42108E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.20304E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.92189199999848 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.93425391814488 q( 3 )= 5.93248660169612 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9392E+00 8.4377E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 534.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 534.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 534.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.24890681216077 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02808751854170 at nshe,nfasti = 5 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12740 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.40543764762153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.46699445416779 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90025743506478 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.08954250213974 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.19749533757945 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80260832184579 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.23337966877649 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18163187553042 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80557157065080 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.33721475671663 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.15739198069760 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.76253494298238 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.46838979809621 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.16951196461566 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.81603814034071 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.54565486693434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.16423986134228 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.80340260084543 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.65589587705057 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18625661702122 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.85658976156974 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02702171869116 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.70485868414992 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.18337515933581 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.83832387149820 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.79624293176893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20566653185314 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88854221812531 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.04906537532280 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.82068479296864 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20002526229858 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.86406473165817 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.06825882423542 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.87961107773442 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.20578860394702 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.86912719396507 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07813333682600 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.92071556326167 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21038633062715 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.87661553371680 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08376035562974 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.95113370494176 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21411830041268 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88284931676971 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08776532446491 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.97440271760942 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21689009368073 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.88793104549778 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09074278619313 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.99243883231338 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.21901423742349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89206437488282 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09295852596425 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.00640794372195 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22105962933224 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89537383759569 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09457330178281 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01725598221780 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22272761509510 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89799996889743 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09573788800768 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.02430933715512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22384210207525 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90009816101758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09654444123503 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.03072737960345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22496586247776 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90175320848357 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09708149988491 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.03548364089954 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22580724411059 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90307877321136 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09741169413102 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.03898497366660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22645472118420 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90413019449865 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09758237184589 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04151205910143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22694696377880 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90496913087316 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09764610567377 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04334477403323 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22733034830085 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90563877501200 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09762880623046 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04462923076175 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22763905139851 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90615137625250 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09755686250000 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04550429225219 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22786751298271 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90655869697792 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09744753672584 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04607609895526 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22805394241900 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90688092378747 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09731640355376 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04643147291112 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22821326501934 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90712958936693 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09717569147652 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04660568460404 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22833657794472 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90732369732185 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09702802738127 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04664651531836 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22843981706504 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90745075371335 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09687946144373 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04664587637107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22855303198368 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90756447484798 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09673994837834 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04656870219845 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22864262049980 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90765311134704 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09660890458634 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04645683405108 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22872490938448 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90772560907023 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09648621481838 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04630940951220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22878418158434 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90777345475339 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09637422347279 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04617685357845 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22885179904069 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90781174771991 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09627312418114 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04604504152935 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22891361035558 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90784653844034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09618334506366 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04591298078798 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22896836416662 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90787218141395 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09610322322593 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04579105721240 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22901963666738 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90788929555521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09603513060028 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04568291504444 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22906751825564 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90790672321749 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09596449389429 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04555896210559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22909408393930 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90791822202350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09589860035549 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04547405993262 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22913572995720 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90793576504254 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09584199414581 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04539355524718 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22917118872392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90794707102974 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09579049945200 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04533213852582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22920739688371 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90795301513617 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09574807313733 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04526581378922 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22923489500393 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90796033285437 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09570837937802 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04521158713288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22926179530810 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90796708168714 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09567282815177 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04516882784127 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22928600894776 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90797213589435 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09564188939768 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04513660289170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22931138687795 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90797704222579 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09561413470372 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04508227404216 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22931724220916 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90798321304683 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09558822445849 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04505005257698 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22933374811950 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90798830443589 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09556616094045 at nshe,nfasti = 3 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.704E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.045E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.04502681005965 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.22935102241536 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.90798598017334 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09554772496414 at nshe,nfasti = 3 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 37087 TA= 7.40000E+01 CPU TIME= 8.26033E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 32.7361819444445 %check_save_state: izleft hours = 47.1844444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.400000E+01 NSTEP= 37087 Hash code: 38714153 ->PRGCHK: bdy curvature ratio at t= 7.5000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 74.000000 ; TG2= 75.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8060E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 74.000000 TO TG2= 75.000000 @ NSTEP 37087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.44641E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 44= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 44= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.44641E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 44= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 44= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.17549E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 3.106E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0514419999963 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.88760553391302 q( 3 )= 5.90655884949205 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9414E+00 8.4380E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 9.72379718135082 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.62463512899899 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.04417378000081 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.27409631280114 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.46983706769694 at nshe,nfasti = 5 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12742 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.16580084189222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02111410927098 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03535464908698 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.39383811987870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31839855790087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02755576689346 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.74827852303889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04113336074780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42751963048871 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.25516868074888 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.98908944251437 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08319503767087 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.06442262150961 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46144500693810 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.28703125338456 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.01506150753895 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 6.00248239889857 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11918863863947 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07085064663163 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.46826061743012 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.26333974255392 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 6.02564727546692 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15563495334370 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08687036766100 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.48140525812961 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.25420515545882 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.91937497108378 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14132702744679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08046595005709 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.49050767959948 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29199754076236 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.01965895460946 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.92122228292649 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16252849307584 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09567036562909 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.50652777075554 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.28829679977377 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.00894942588310 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.93345340066510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.18649268153472 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11015206029272 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.52338561819948 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29005654430163 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.00135557602527 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 5.94767416014670 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20767250827697 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12422992648442 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54032764752231 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29304059584980 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 5.96184781402898 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22638546389847 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13800457900022 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55701458132677 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.29670262250888 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.82936276586178 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.19163823345780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08847709593820 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.52257449624329 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.31965045926314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.03769864083024 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00644742522281 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85417779984861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.20891011337942 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10290457016476 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.54012232703080 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32150091251315 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.03421560908546 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00463462365735 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.87207874122355 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22419024804216 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11404655851438 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55472376237782 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32536468791344 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.03213958564601 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00352521890034 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.88451207630701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23615311431450 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12417757161672 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.56856453601870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.32934708847379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.03044977295121 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00293682379615 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.89518951922967 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.24770003935233 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13348180461717 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58176674998768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.33342696850161 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02918007262533 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00277145077000 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.90501995752269 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25896290761828 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14211880182893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59431464193298 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.33757371548223 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02836629874169 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00295817305305 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.91404138901176 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26946195169248 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15007755461397 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60627087497149 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34171286542350 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02793671964038 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.00343312387784 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.78266556071341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.23103724214950 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09665577967071 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.55350232771419 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34600086062382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05698776011204 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03070346043380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80051372217349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.24166066060874 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10653737386725 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.56768417357536 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.34884517360173 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05700597983667 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03163497134954 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81283150970903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25054972768606 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11316065209729 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.57766363983771 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35243545168741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05731178941944 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03262271803715 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82157178399751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.25823676036371 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11949962794668 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58772316738391 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35615569901977 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05782216997036 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03374077585688 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82899458725834 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26540026287806 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12515385210870 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59674522107193 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.35980368985215 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05850351876760 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03496946182083 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83586907159425 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27232586822839 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13046624343425 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60556770851898 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.36343732390337 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05934368092589 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03629200741279 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84227589900102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27877406638013 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13566195545747 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61403708046347 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.36704448167987 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06031528100174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03768899759139 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84886809147565 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28353317974931 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14057928291215 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62214623933130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37060065464691 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06139696905212 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03914125555780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85540221186337 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28627180294135 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14528299325605 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62993070482144 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37410061059480 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06256970040108 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04063470791452 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86112019365417 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29034784868849 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14978652222015 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63743097797876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37753824192946 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06381735207475 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04215825309395 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.76624006566412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26021196711226 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.10490686150742 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.58245278608462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.36887835430949 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07407432712941 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05317616395412 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78065576387497 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.26617424866510 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11136006245299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59321755169539 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37178027703190 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07564378630875 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05474111128337 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.78988072732243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27133122410814 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11558072310549 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.59978777566778 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37460637068069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07687982638475 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05617717528205 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.79579149466466 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27570104191732 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11935784457990 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.60597629963649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.37748169634778 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07813872613035 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05760614280032 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80070518594725 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27970055458359 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12289945065354 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61189074622393 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38032976572976 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07942461470561 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.05903327220694 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80537576522070 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28344354152348 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12629298091649 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61756304068297 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38312232735605 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08072825022569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06045405440472 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81016975620153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28691812799169 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12956324752694 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62301800108505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38585289178623 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08204176917918 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06186295788616 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81497874476372 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29018168538508 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13272249555772 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62826450875142 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.38851567227966 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08335690999784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06325250685125 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81973404076752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29326775863647 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13578055110372 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63330685489026 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39110832638797 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08466698120245 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06462015666820 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82439134172961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29619816740170 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13873751438741 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63815388953788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39362784087692 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08596666862660 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06596369855962 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82857695329593 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29907781047703 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14159321862692 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64279904110259 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39607202204525 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08725171128000 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06728036905998 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83257917599664 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30185337627649 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14434794269390 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64725339312372 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39844007691047 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08851771641608 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06856738549844 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83647310217231 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30450274633008 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14700973318489 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65152960114912 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40073165958157 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08976131805503 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.06982367882335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84027970228140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30703130371640 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14958322105350 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65563037033900 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40294810292319 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09098097374948 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07104838166511 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84384945133431 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30941769227066 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15203185671616 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65947197190699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40508132104824 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09217332716492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07224018213790 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84779460099293 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31176745268796 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15454062494159 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66346834745126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40716985720032 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09334359547445 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07339993351354 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85114230111703 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31393587928098 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15681770898631 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66695676079911 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40915048110704 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09447849853644 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07452389459816 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85459240887682 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31603040710981 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15906211716740 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67042081775014 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41107299510716 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09558579035126 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07561451497840 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85797604717161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31806710174024 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16123500581708 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67373924179000 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41292384988549 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09666250603889 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07667129028344 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86126741489202 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32001728915511 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16333048838630 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67691345724225 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41470624588309 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09770739267053 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07769365210797 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86446590081704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32187870576813 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16535174252311 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.67994055070019 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41641924232388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09872117015285 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07868274794961 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.801E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.250E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.78716515725514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29210425540746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.11673355554903 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61154785810272 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39013585414628 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08803663532574 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07211743818900 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.79929396889006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29498915670376 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12050022553391 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.61874045125831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39189361659260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08965361478577 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07307805910426 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80614192088114 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29733969960085 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12254686629221 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62125582985756 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39289605528045 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09033321615970 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07379184898758 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.80940923458903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29897363720406 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12413327482076 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62348222793419 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39398954994323 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09099508415276 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07447491205614 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81163503034948 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30035098076507 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12552756298015 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62556707824081 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39509048552218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09164717225996 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07514251093830 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81353713856670 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30161283144351 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12682907606622 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62755060196615 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39617351474569 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09228624039031 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07579414689337 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81532326932477 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30280215133261 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12807301873200 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.62944676262052 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39722767460420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09290917436347 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07642788031376 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81705074861003 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30393337106276 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.12927159986336 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63126158202729 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39824757769585 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09351391060126 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07704221707013 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.81873294727296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30501211944381 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13042864052277 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63299808372608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.39923041150870 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09409922176311 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07763626368544 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82036953093377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30604104695688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13154495691141 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63465813080936 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40017464143035 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09466451489333 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07820960587287 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82196023772977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30702278265573 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13262119673299 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63624410023751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40108033476338 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09520968113370 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07876215494948 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82350494658411 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30795979394193 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13365815082606 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63775832885502 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40194827219681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09573490856268 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07929422274359 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82500450545980 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30885432301605 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13465694200394 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.63920334249381 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40277941684314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09624041331424 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.07980596230736 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82645870190145 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30970858129108 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13561869063212 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64058183582470 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40357457267155 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09672657041597 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08029794821980 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82786698061686 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31052443935196 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13654459525315 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64189729721064 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40433635328572 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09719330296319 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08077016403877 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.82922912221638 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31130349397875 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13743582300669 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64315130372444 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40506325872844 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09764224128258 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08122420274445 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83054789752764 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31204386831286 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13829374730265 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64434683038300 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40575727703932 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09807356468576 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08166038817766 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83182474208726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31275005867204 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13911954016393 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64548646761652 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40641966046877 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09848779857073 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08207929012499 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83306090425068 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31342586472018 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.13991456445653 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64657288630049 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40705231157581 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09888556395492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08248150264035 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83425767000282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31407277599408 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14068004969393 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64760858731651 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40765651492759 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09926740534890 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08286761914251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83541588449811 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31469218607808 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14141718278447 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64859589433456 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40823334445163 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09963385943360 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08323822688806 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83653585889728 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31528531224919 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14212701037512 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.64953698590507 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40878396777882 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09998546078432 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08359389367388 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83761827029388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31585332205921 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14281052040521 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65043398770977 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40930895822162 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10032270675920 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08393516961027 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83866411690044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31639737872903 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14346868678260 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65128892940642 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.40980986183368 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10064615514257 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08426260422847 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.83967430519858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31691862745169 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14410246554034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65210377857014 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41028778811730 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10095629133113 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08457672256634 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84064959119890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31741810090397 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14471268607065 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65288038241784 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41074375667840 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10125360730219 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08487803988399 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84159063937711 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31789672573137 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14530009877192 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65362047618596 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41117891909772 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10153856749458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08516705292356 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84249898189179 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31835559676796 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14586589296725 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65432595266496 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41159445569812 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10181165146153 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08544424828830 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84337532833163 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31879554254323 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14641073293260 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65499834547857 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41199078518362 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10207329844043 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08571008705127 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84422056140014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31921739980691 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14693532034501 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65563917936652 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41236873696596 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10232394198894 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08596501490079 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84503547094775 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31962193438714 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14744045598859 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65624989527348 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41272912499928 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10256400509490 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08620946134685 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84582081930395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32000982194633 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14792682384294 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65683187750798 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41307272637156 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10279390109690 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08644384328283 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84657731900441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32038179745162 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14839503518782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65738642553588 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41340019481112 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10301397264522 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08666848460202 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84730583687546 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32073855580066 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14884575456834 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65791482287503 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41371233148299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10322464676569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08688383597963 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84800776392235 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32108082541853 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14927974212234 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65841837452544 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41400985500812 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10342631305797 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08709028721822 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84868393604321 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32140922633124 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14969763728330 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65889829301832 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41429341598587 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10361932955133 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08728820081834 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84933516231555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32172438308385 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15010003943458 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65935566327518 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41456355955535 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10380400908733 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08747790699546 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.84996223075996 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32202686065168 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15048751540335 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.65979149629964 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41482095983210 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10398072263494 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08765976056335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85056599379633 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32231720077604 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15086062858107 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66020685963645 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41506623226810 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10414981469050 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08783409572833 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85114730163357 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32259595369941 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15121992716416 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66060273943885 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41529994361288 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10431160216214 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08800122128905 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85170684697512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32286361416584 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15156591921532 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66098007686211 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41552262196067 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10446637908287 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08816142951327 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85224526539292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32312063567052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15189905055893 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66133972229290 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41573476865961 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10461443218665 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08831500488567 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85276253863945 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32336731216261 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15221957151992 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66168244325562 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41593686224466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10475604254971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08846222320924 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85326019445126 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32360423425923 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15252820558514 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66200912768491 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41612938383522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10489148335511 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08860334915952 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85373865589576 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32383177183143 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15282533874334 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66232051344867 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41631277661278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10502101396965 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08873863631197 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85419896650644 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32405038259671 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15311149373800 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66261735916442 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41648746956630 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10514488717816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08886833287816 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85464161248520 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32426040159695 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15338706719357 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66290028777502 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41665385756686 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10526334431108 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08899267328647 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85506739803132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32446221127311 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15365248671716 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66317001660545 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41681234483102 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10537662152488 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08911188292777 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85547680387614 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32465613694639 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15390810671679 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66342717863519 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41696331051433 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10548494312774 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08922617674372 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85587041250888 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32484251342461 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15415429210453 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66367237442105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41710707160023 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10558852108154 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08933576205268 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85624891079754 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32502167043710 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15439142757570 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66390618850394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41724397671734 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10568756374676 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08944083584197 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85661262590619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32519387046496 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15461981646044 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66412917707444 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41737431156909 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10578223037392 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08954157781842 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85695783275500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32535910861997 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15483982668146 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66434184341982 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41749840012397 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10587271401867 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08963816718552 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85728047489080 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32551735508585 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15505182461417 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66454468394394 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41761657837179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10595921847423 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08973078374526 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85759060278035 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32566948853141 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15525602468183 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66473815306462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41772912640903 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10604191837398 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08981959674454 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85788831813320 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32581576609964 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15545271084099 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66492269497558 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41783630420008 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10612097993929 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08990476720295 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85817409386640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32595643674772 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15564216684295 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66509874042083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41793836710547 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10619656283783 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.08998644907018 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85844841630140 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32609173147413 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15582466389873 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66526668995640 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41803556986246 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10626881979724 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09006478907077 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85871172976886 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32622186947765 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15600049088686 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66542693024870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41812814513057 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10633789640755 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09013992805638 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85896445770744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32634705492937 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15616989495974 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66557983547768 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41821631521820 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10640393291993 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09021200109935 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85920700766098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32646749085105 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15633309584320 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66572574568060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41830028721724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10646706177820 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09028113736996 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85943977675069 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32658337063891 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15649032533110 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66586499278060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41838025602162 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10652740810985 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09034746040761 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85966314426808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32669487939565 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15664180722002 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66599789225078 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41845642069287 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10658509910865 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09041108886089 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.85987747961507 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32680219280204 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15678775679273 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66612474432748 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41852896292601 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10664025203773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09047213613970 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86008313018288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32690547223800 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15692837808524 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66624583671690 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41859804655161 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10669298035661 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09053071152591 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86028043757251 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32700488098252 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15706387164634 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66636143901575 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41866384463040 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10674339178076 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09058691885336 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86046973396302 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32710057530647 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15719442941803 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66647180919747 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41872652067741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10679158848371 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09064085735556 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86065133597289 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32719270432902 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15732023544634 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66657719164775 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41878622943822 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10683766901492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09069262215072 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86082554316574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32728140751463 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15744146660758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66667782147579 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41884309943472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10688172786945 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09074230445506 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86099265160142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32736682050425 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15755829454407 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66677392309737 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41889726936322 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10692385409784 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09078999126549 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86115293606730 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32744906911986 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15767090495735 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66686571282275 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41894887377744 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10696413280866 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09083576592770 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86130666979701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32752827852253 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15777944524148 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66695339204813 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41899803512111 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10700264631028 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09087970832206 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86145412236626 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32760456943993 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15788405728176 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66703715196238 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41904487065540 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10703947287109 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09092189487875 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86159554752887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32767805724088 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15798488765029 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66711717642340 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41908949207030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10707468714081 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09096239865946 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86173099226814 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32774881435294 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15808202467166 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66719361525560 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41913200368645 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10710836049435 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09100128967005 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86186090953906 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32781698441783 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15817565619091 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66726665970089 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41917250874095 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10714056113693 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09103863499760 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86198553197916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32788267128381 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15826591864223 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66733647069661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41921110392939 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10717135490630 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09107449888232 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86210506698491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32794597057876 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15835293752923 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66740319904910 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41924788105632 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10720080446623 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09110894280715 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86221971731700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32800697429065 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15843683321015 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66746698817971 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41928292744770 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10722896960896 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09114202563294 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86232967612783 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32806577075524 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15851772142784 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66752797457299 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41931632643543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10725590760350 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09117380369067 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86243513658971 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32812244491105 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15859571382050 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66758628807700 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41934815414028 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10728167252447 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09120433117558 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86253628187532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32817707824748 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15867091776726 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66764205244373 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41937848795916 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10730631686454 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09123365965769 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86263329436669 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32822975405568 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15874343776890 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66769538564636 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41940740023868 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10732989975170 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09126183848035 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86272634310316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32828054394898 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15881337337041 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66774640021398 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41943495937227 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10735246396153 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09128891497810 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86281558662706 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32832951814511 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15888081961753 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66779520301998 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41946123044956 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10737405028421 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09131493449142 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86290118711295 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32837674586485 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15894586959099 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66784189017488 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41948634280195 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10739476960749 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09133995108466 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86298329024803 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32842229386218 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15900861100266 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66788655829908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41951031191552 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10741462146498 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09136400257436 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86306203619637 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32846622547316 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15906912773051 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66792929827843 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41953316993509 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10743362209795 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09138712443969 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86313756558242 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32850860222123 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15912750308771 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66797020176886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41955496336234 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10745180704460 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09140935375242 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86321000944171 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32854948245325 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15918381522387 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66800935120220 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41957574336193 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10746921101107 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09143072621600 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86327949636963 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32858892231412 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15923814050615 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66804683004269 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41959556048004 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10748586786987 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09145127606983 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86334614800275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32862697548103 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15929055196149 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66808271530042 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41961446130144 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10750181048748 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09147103636368 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86341008625676 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32866369738545 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15934112086833 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66811708041601 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41963248679305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10751707044939 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09149003883623 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86347142397563 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32869913549132 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15938991518709 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66814999539881 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41964967942941 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10753167782054 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09150831391981 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86353026676408 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32873333643773 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15943699969552 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66818152674656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41966608190879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10754566162754 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09152589083514 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86358671729081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32876634571083 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15948243679332 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66821173783363 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41968173309888 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10755904982451 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09154279761515 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86364087529823 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32879820734235 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15952628676914 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66824068932177 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41969666933148 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10757186808122 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09155906066318 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86369283698031 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32882896372803 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15956860775086 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66826843936921 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41971092415590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10758413872750 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09157470412916 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86374269473916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32885865554361 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15960945566963 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66829504286976 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41972453122484 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10759588967282 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09158975430858 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86379053682557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32888732180612 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15964888424395 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66832055206173 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41973752279946 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10760714464441 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09160423528557 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86383644811642 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32891500004378 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15968694522807 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66834501692729 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41974992939586 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10761792622001 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09161817002342 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86388051001277 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32894172625288 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15972368839430 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66836848509462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41976177986119 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10762825568850 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09163158041113 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86392280077058 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32896753506315 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15975916165194 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66839100197405 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41977310157348 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10763815352488 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09164448747788 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86396339546074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32899245976626 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15979341109021 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66841261081518 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41978392055254 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10764763942274 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09165691145470 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86400236589534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32901653228226 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15982648097740 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66843335269348 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41979426146566 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10765673201478 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09166887168306 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86403978099455 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32903978332255 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15985841389782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66845326668624 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41980414774007 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10766544908718 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09168038673010 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86407570696067 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32906224248207 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15988925080680 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66847238986789 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41981360181125 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10767380763431 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09169147442780 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86411020780358 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32908393842921 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15991903088736 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66849075678838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41982264639584 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10768182396950 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09170215187235 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86414334188643 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32910489779485 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15994779164041 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66850840103747 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41983129945528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10768951335602 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09171243541335 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86417516724740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32912514682696 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15997556958368 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66852535462460 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41983957978276 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10769689037689 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09172234072296 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86420573905003 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32914471079693 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16000239981454 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66854164782157 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41984750521615 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10770396890773 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09173188276056 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86423511030760 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32916361403057 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16002831608695 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66855730937432 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41985509267780 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10771076216733 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09174107586126 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86426333244007 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32918187994502 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16005335088645 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66857236660863 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41986235816903 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10771728271581 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09174993374762 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86429045384889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32919953097832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16007753539513 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66858684545571 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41986931682833 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10772354247424 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09175846948311 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86431652083109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32921658876163 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16010089964473 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66860077066241 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41987598307467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10772955282122 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09176669557873 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86434157751174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32923307407142 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16012347252017 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66861416580062 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41988237058129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10773532457434 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09177462397249 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86436566614132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32924900694183 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16014528186340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66862705340932 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41988849239420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10774086807930 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09178226611380 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86438882693013 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32926440657384 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16016635443403 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66863945494585 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41989436086494 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10774619315776 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09178963291597 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86441109842450 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32927929148607 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16018671602526 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66865139093674 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41989998778864 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10775130921287 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09179673486004 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86443251750696 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32929367952402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16020639149475 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66866288100126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41990538440785 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10775622524545 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09180358202051 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86445311930818 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32930758779722 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16022540473448 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66867394379978 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41991056136305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10776094980804 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09181018402450 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86447293944724 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32932103269050 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16024377868415 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66868459740095 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41991552912284 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10776549113319 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09181655016120 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86449200779057 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32933402946368 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16026153559943 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66869485938490 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41992029721992 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10776985708816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09182268936976 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86451035405994 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32934659369103 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16027869661774 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66870474581730 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41992487238441 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10777405361752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09182860815860 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86452800823675 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32935874027611 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16029528230542 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66871427195190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41992926455901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10777808858474 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09183431585561 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86454499900412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32937048356851 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16031131252395 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66872345216120 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41993348281012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10778196938882 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09183982116424 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86456135358024 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32938183731655 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16032680637890 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66873230020866 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41993753504478 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10778570255376 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09184513179290 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86457709801174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32939281478062 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16034178228510 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66874082928474 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41994142867946 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10778929430386 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09185025509282 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86459225711968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32940342875815 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16035625799099 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66874905199614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41994517074094 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10779275062203 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09185519814725 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86460685439615 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32941369150780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16037025053584 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66875698029130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41994876782406 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10779607710620 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09185996769774 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86462091237841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32942361489546 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16038377636242 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66876462559187 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41995222620712 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10779927910656 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09186457023344 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86463445261645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32943321039261 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16039685134054 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66877199880993 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41995555185052 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10780236173205 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09186901199759 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86464749554953 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32944248899938 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16040949072758 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66877911029908 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41995875034697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10780532979387 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09187329892137 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86466006079810 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32945146136775 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16042170926266 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66878596999440 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41996182704249 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10780818789612 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09187743670216 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86467216715153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32946013780771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16043352119224 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66879258743831 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41996478705037 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10781094044962 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09188143081568 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86468383241469 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32946852819570 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16044494021982 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66879897172440 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41996763518842 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10781359161751 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09188528646080 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86469507372952 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32947664210663 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16045597960053 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66880513162185 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41997037609879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10781614540799 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09188900864886 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86470590728925 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32948448877207 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16046665208635 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66881107561371 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41997301404049 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10781860565928 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09189260221050 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86471634847214 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32949207702385 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16047696996777 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66881681180489 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41997555318430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10782097600976 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09189607174251 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86472641255795 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32949941549649 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16048694722823 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66882234794829 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41997799786862 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10782326000458 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09189942169970 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86473611419148 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32950651251310 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16049659452340 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66882769145870 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41998035190745 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10782546099305 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09190265633308 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86474546723014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32951337612490 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16050592188990 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66883284952048 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41998261901590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10782758221289 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09190577974898 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86475448475459 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32952001403951 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16051493997632 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66883782899118 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41998480270784 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10782962672550 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09190879584762 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86476317948485 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32952643374206 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16052365914285 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66884263652546 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41998690639625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10783159750290 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09191170841163 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86477156369263 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32953264248958 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16053208943215 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66884727855276 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41998893338071 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10783349742923 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09191452111896 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86477964901418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32953864721614 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16054024049610 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66885176118093 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999088675611 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10783532923106 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09191723748346 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86478744674037 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32954445466084 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16054812167621 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66885609029136 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999276951132 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10783709555351 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09191986092943 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86479496777061 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32955007137777 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16055574201460 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66886027143377 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999458411069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10783879921224 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09192239483864 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86480222235237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32955550361419 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16056311015149 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66886430989190 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999633342274 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10784044232155 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09192484232885 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86480922038076 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32956075741997 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16057023444499 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66886821081495 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999802009818 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10784202716349 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09192720643463 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 5.86481597146984 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32956583868845 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16057712302185 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.66887197919013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.41999964664482 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10784355596916 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.09192949010117 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 37587 TA= 7.50000E+01 CPU TIME= 7.74470E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 34.0081358333334 %check_save_state: izleft hours = 45.9125000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.500000E+01 NSTEP= 37587 Hash code: 27272496 ->PRGCHK: bdy curvature ratio at t= 7.6000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 75.000000 ; TG2= 76.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7760E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 75.000000 TO TG2= 76.000000 @ NSTEP 37587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.42345E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.37258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.37258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.42345E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.37258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.37258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.22141E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.59021800001210 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.84737650128920 q( 3 )= 5.88707915430950 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9438E+00 8.4383E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 572.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 572.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 572.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 3.77549878646986 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01740295603214 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02560242040739 at nshe,nfasti = 4 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12742 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 10.0000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 5.00000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.95630940301601 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.01328143341535 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.24295825632763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.77522421804335 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89765220212221 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.19173419637170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.73547993394235 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.89306318135021 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.42138757803933 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.81032206701656 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.95850203946906 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.38906575560002 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.79993746180761 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.96169039694515 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.59017646088782 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.87875993540073 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.02386664138423 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02379171354236 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.54894471135149 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.86730487146818 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.02102275546363 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.02634097528341 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.73987215812908 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.93876572427527 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.07674020601801 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05445302267730 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.66977330927320 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.91968338481961 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.06515824143994 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.05256648532989 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84322554167477 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.98144416868682 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.11355506481177 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07634547592468 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.74926927030618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.95431316005960 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.09476265828937 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.07039725557039 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.91105369845762 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00941595154901 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13757174267180 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09078301875209 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.79549353048136 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.97671580567362 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.11353093990974 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08186013905935 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.95431354492206 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.02724262082698 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.15238280482493 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09988377018715 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.82162847442586 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.99046591560436 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.12487272036347 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.08899591937481 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.97922657408441 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.03824745672974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16114384751669 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10547576355659 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.83788750834237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.99957926840416 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13137778350094 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09331105889418 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.99442032499169 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.04536631838766 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16606775178653 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.10885698222774 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84571354830413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00489951138397 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13489252169593 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09588172481000 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.00453629428011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05026423997779 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16867449532061 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11087440769830 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84978230396963 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.00849412961190 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13670042576459 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09741930418195 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.00925728299065 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05321337523434 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16996323795408 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11208314101317 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.85151270813060 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01083860079329 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13751952628999 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09833339972558 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01150037931857 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05513264150859 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17049445284189 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11280705557857 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.85194565973150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01239820561657 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13779751514440 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09888100490608 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01231910301813 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05633661666885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17060122336239 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11323183349028 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.85174710605002 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01348298882888 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13779009420895 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09920606943380 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01262462445149 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05726447797654 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17054548332493 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11350297593977 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.85037185920192 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01396845776431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13767971481820 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09941410757297 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01237581652035 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05791599452575 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17040480709034 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11367410897721 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.85006067132900 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01449674553590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13751462121421 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09954648916963 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01209548044288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05840498505172 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17024674756234 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11378832822224 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84977592511700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01487528759336 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13733724601213 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09962923276629 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01180076314185 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05876598336050 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.17009069383794 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11386208140677 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84951234238702 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01519060120525 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13719359015494 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09968982300468 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01155405387409 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05905734691455 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16996405878964 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11392190438513 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84934899941352 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01546542987567 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13707645719070 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09973894765862 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01132395958579 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05927287634938 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16985977275132 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11396599232374 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84928713785817 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01568306424520 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13698471973020 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09977560593925 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01094407707640 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05944209373522 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16978131383230 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11400023424601 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84933224957387 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01586464660204 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13691691373330 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09980603968067 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01056823754040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05956833475224 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16972029967048 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11402774930979 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84940158415450 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01601600525952 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13686193168215 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09982749413136 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01026144226844 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05966103726075 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16966923912886 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11404653419767 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84937803069071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01611611075681 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13681957320141 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09984465709407 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.01007994834351 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05973901726343 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16963343952129 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11406149827109 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84934597916577 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01619600268458 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13678796349710 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09985831772265 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 6.00996745601706 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.05980300795654 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.16960724016370 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.11407588685089 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.899E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.405E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 5.84930842995025 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 4.01624556050705 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 3.13676314786970 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.09986870477845 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 38087 TA= 7.60000E+01 CPU TIME= 8.27613E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 34.6106833333333 %check_save_state: izleft hours = 45.3100000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.600000E+01 NSTEP= 38087 Hash code: 108956850 ->PRGCHK: bdy curvature ratio at t= 7.7000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 76.000000 ; TG2= 77.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7890E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 76.000000 TO TG2= 77.000000 @ NSTEP 38087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.38672E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.42787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.42787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.38672E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.42787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.42787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.26733E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 3.232E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0059110000002 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.80398263151440 q( 3 )= 5.86412272607037 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9461E+00 8.4386E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.61347308472454 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.32587909463748 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12908063553819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.04031123905334 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.04866717377107 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12744 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43512792171909 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20234153819102 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.16479563039543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10408515609931 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03697256374667 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58723644937471 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20822981459412 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.15528655701811 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11944277091409 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03803676754414 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.62230546898988 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21043793604093 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14976084001068 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12530110225289 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03617085484413 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.62780394185841 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21463662795275 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14701712522443 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12901859232197 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03399696434655 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.63156738013392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21903190802676 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14568499781796 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13208829193816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.03200212266153 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.64865727489124 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22349220341955 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13329710389601 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12696729585541 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02190726437366 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.64350318957362 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22785826595142 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14445620191174 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13767227109208 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02956753596085 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.66399301785021 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23543521737678 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13888281600081 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13638308713775 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02320927926151 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.65959559768354 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23341622785030 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14328001188874 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14230699008598 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02765561598826 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.68174758239209 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24212822067653 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14120064418800 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14319250569302 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02409065587929 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.67768576304067 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24720606473355 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14200268520899 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14621483123418 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02652306150110 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.69426300772519 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25636522384532 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14153478221598 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14835820558827 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02480854036112 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.68922847069085 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23893973153601 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14004917849282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14944166840959 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02588415638552 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.70415009510392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24705070310857 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.14071095214319 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15233609702605 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02547012764501 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.70003252594140 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23989631107126 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13787982488902 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15212371945046 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02559798884604 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.71331671202320 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24721943377579 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13909503422562 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15542016973964 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02599937399033 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.70964032661339 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23994774969625 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13552774397391 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15432155183566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02544020129864 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72112728005553 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24678071769558 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13725222203383 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15780694003763 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02640861235107 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.71785090518506 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23972279895159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13317668596559 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15606623758285 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02538214890531 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.72845097195733 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24610345596815 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13524163663391 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15959516294450 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02670162502236 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.72588839268640 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23938015455576 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13092129590227 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15741730847835 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02536492863754 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.73620434857713 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24531373865805 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13319086688298 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16089919129172 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02690986784112 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.73451544043373 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23890199632788 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12880874872162 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15843165551566 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02536045295993 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.74393152560407 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24439042825311 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.13117302856741 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16180778955349 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02704040512966 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.74257464894484 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23838139701487 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12673367129830 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15916277581078 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02535798560654 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75110502014230 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24342318976002 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12911648308147 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16239565494680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02709847040057 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.74935913438020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23770289110644 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12469256105290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15965402938668 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02533622146656 at nshe,nfasti = 7 5 %fp_imp warning: RF renorm adjust = 2.75624094893741 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24234923577262 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12705539941290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16272124969308 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02708076588049 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.75442107118771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23690320443362 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12271302109720 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15992435879337 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02527351357856 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.75817429956675 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23667642421880 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12190288785748 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15998436625774 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02509063552454 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76045642535795 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23620469303415 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12094474731880 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15999767097872 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02501342695277 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76268509611863 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23574334560130 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11991533979361 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15997258136069 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02493852990895 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76481981633515 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23530985328337 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11890439302674 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15992752153072 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02485690463912 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76688975846909 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23488406433338 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11790491551082 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15983963275811 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02476387540696 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.76887309646055 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23442770288830 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11691919602250 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15971720825968 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02466240568758 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77085678619667 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23396823132458 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11594068288152 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15956991262067 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02454998841651 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77268724486539 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23349598686324 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11491965218701 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15939356252748 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02442829358302 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77455891182207 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23302669114041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11391604136019 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15919386662974 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02429393335460 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77635856279669 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23255701931752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11290391905074 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15897219037379 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02414837183264 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77806879989143 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23208265720174 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11188236209326 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15872893936110 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02399593590174 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.77972616040974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23160867106164 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11088589350505 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15846927733758 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02383486810199 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78133184234793 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23113528025841 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10985975271609 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15819405008863 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02366669185522 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78285223679697 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23065079824370 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10885520342096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15790325765767 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02349039563238 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78425640939967 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00201855383963 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23015828086802 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10788173462367 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15759953833001 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02330775315377 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78550321091943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00029586983588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00455805753499 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22966115623796 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10693233590617 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15728384757920 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02311924882445 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78668762889027 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00221840334566 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00710178847455 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22916481685629 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10600380717783 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15695893051278 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02292353054858 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78776094061256 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00402608918499 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00950229615539 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22865167797949 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10509718788839 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15662194159666 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02272149745569 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78886055576081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00577946785865 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01182034689489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22813649003093 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10421317208912 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15627860806440 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02251642698804 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.78986661631005 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00740124767317 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01398837624382 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22762380789288 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10335207146472 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15592778564051 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02230539949533 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79073837686069 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00884921536882 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01595393184598 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22709518007341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10251162971339 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15556873134748 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02209008023256 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79158086637720 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01022744181027 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01779737821409 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22656364285784 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10169060417425 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15520665082089 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02187150145730 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79239006040693 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01155460286786 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01955119011559 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22603367834390 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10088946110652 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15483901093683 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02165142074543 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79310389800856 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01279128463412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02119264504151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22549063770617 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.10010528606578 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15446765398271 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02142846067169 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79382749483786 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01398508939706 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02276905685902 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22495037938891 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09933810189090 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15409475206747 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02120452511833 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79450323942045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01511366374963 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02426013161888 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22441030990717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09859232699085 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15372002421373 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02097966288078 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79510935789416 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01619755431236 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02566650026894 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22385679746070 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09786848336820 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15334537969983 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02075259902222 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79570753474258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01733034827704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02699186457077 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22331925544433 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09716276346634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15297035564616 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02052672537775 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79627715577096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01841631073824 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02824981843029 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22278587073269 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09647290052747 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15259691419658 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02029935936986 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79680343825316 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01944513954991 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02944579161651 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22225903508929 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09579845882807 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15222421503132 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.02007362625183 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79731868719890 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02043043561776 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03058798115907 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22173616771135 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09513979069635 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15185482111309 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01984962381049 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79778315629361 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02135087888835 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03165619534083 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22122652619063 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09448968288007 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15148770231971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01962520970767 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79825369034380 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02224236605755 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03268922022957 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22072007833332 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09385213187985 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15112353127971 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01940220412202 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79867008677356 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02308075015111 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03365879584036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22021990568661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09322526260969 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15076124881314 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01918187877423 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79906580752859 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02387262821508 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03458158364834 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21973229486852 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09261503369491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15040446476309 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01896267590357 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79944832499024 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02463438353148 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03546321016827 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21924836644041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09202137661202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15005136603295 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01874443385380 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.79982214349879 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02535875143997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03630274662472 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21877210338295 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09144332636082 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14970423846958 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01853055501373 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80017537526203 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02604874156230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03709747560632 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21830233627083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09088013877634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14936084828472 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01831779079792 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80042498943409 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02668542497633 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03784360752738 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21771392698314 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.09032480759917 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14901896866009 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01810799723338 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80074733776182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02730872075315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03856503630874 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21732305580654 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08979400201610 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14868693933868 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01790097179663 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80105914449675 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02790605617426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03925224656349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21693316644399 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08927690746929 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14836119344210 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01769925872793 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80134017392765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02846788204784 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03990434978095 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21654345175349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08877529549044 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14803997731602 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01749878993711 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80163451579649 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02901158162617 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04053142544124 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21616849628037 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08828641574697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14772547512519 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01730261307246 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80191257835415 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02953281406545 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04112724576153 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21579784475021 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08781201248647 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14741678788705 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01710950529422 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80204362819297 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02998954223903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04166468854117 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21523633485260 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08733968409285 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14710869722856 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01691907600858 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80223820002385 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03044318245333 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04218181764756 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21482888056050 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08688506747821 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14680943941461 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01673276207361 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80242862713752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03087537199087 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04266856490652 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21443046587088 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08644598954196 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14651707913899 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01654856405407 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80260218629091 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03128342856549 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04312920031700 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21404435944194 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08601765208890 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14623071795235 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01636968229203 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80282275934498 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03170778373974 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04359274050470 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21366887773894 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08560373435377 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14595127800076 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01619393066566 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80296612933910 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03207938578404 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04400940035610 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21329739942414 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08519956533995 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14567706679335 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01602233943784 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80311674050045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03244329881223 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04441007030171 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21293399854319 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08480389659891 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14540756907029 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01585404241532 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80322447791467 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03276898502722 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04477068952101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21257372656853 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08442009257402 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14514383382361 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01568775502825 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80337136672496 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03309653269421 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04512223586076 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21222965421041 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08405064547277 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14488880445733 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01552598913806 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80350077052790 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03340873843483 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04545917276676 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21189448107369 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08369159711299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14463907306369 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01536944483447 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80360914706066 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03369634893014 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04577396165306 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21156471516898 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08334257379179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14439598636279 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01521563022296 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80370793495984 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03397222391405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04607146326558 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21124658869897 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08300563648255 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14415924310569 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01506556231166 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80380835629582 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03423909503704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04636269409414 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21093577970292 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08267689767597 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14392818417898 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01491902873032 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80389781383572 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03448842375247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04663544705630 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21063288599479 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08235905999130 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14370340397259 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01477700854123 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80396955284333 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03472415150720 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04689246148020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21033575975127 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08205115149148 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14348360599037 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01463754631687 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80404623632522 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03494756507590 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04713719756447 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21004982691931 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08175190578900 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14327006007321 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01450188895163 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80412613962376 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03517070839258 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04737687036843 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20976897573523 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08146109770641 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14306277257977 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01436974452464 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80419680457355 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03537712320158 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04760233306198 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20949876985201 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08117980629543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14286110461980 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01424081586344 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80426401934740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03558392863765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04782319784834 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20923477544587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08090582747663 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14266443883703 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01411647359212 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80432291970597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03577272259860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04803122648178 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20897618613953 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08064282263706 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14247387354140 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01399466722796 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80435731440350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03594564253495 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04822318596911 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20872370985944 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08038592286562 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14228789258867 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01387621033936 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80440835621163 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03611829500119 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04841173894947 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20848095873759 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.08013742489634 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14210682657557 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01375930123951 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80446183985976 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03628389625414 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04858995107798 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20824451527417 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07989786131697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14193190855171 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01364781152722 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80448177194350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03643227705907 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04875875998265 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20801484137798 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07966467631071 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14176029378630 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01353852763850 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80456153090671 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03659352187349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04892511683771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20779689095614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07943901973087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14159551213111 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01343215722691 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80459266002353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03673689919235 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04907808889112 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20758246764608 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07922059207391 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14143472883997 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01332900624602 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80461358546509 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03687061772155 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04922834449058 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20737034059890 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07900954094031 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14127818055560 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01322888046567 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80464990901559 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03699962931737 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04936798404867 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20716907740023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07880533625292 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14112742257474 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01313104075311 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80467918288388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03712515083173 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04950611068587 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20697037713574 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07860635746146 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14098087079127 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01303698757901 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80471106972688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03724698453756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04963769764758 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20678158958623 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07841370575535 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14083774334210 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01294532725954 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80473252502099 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03735961572936 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04976020764428 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20659321873047 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07822905652980 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14069930822175 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01285581867103 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80475665222050 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03746915366826 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04987772777021 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20641383456112 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07804926918080 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14056527577906 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01276904172720 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80476469974660 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03756737970701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04998522443298 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20623869609822 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07787488804607 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14043563738017 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01268519242004 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80478464593149 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03766367000726 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05009069089441 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20606941479076 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07770698946715 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14030979415146 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01260425076888 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80480110751423 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03775499855350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05019379736535 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20590692183712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07754470840290 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14018766072887 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01252560332760 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80482738427333 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03785053139588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05029636860745 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20574863420132 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07738765756211 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14006912840263 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01244829776352 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80484243977377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03794042411452 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05039088679996 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20559438658456 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07723467082991 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13995491406590 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01237392109125 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80485579011992 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03802613287343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05048082027335 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20544618580780 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07708662493098 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13984355746680 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01230206085347 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487387233079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03810692492662 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05057302264443 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20530237222738 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07694358395722 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13973669009089 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01223245577372 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487326843728 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03817869138071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05064933402012 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20515997529593 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07680536723971 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13963167133671 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01216404920144 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488053984124 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03824935243487 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05072412524113 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20502485798230 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07667206648617 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13953148811627 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01209841447520 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489443504308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03832050073763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05080379796927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20489315238274 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07654324437012 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13943395865853 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01203528901383 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490996911657 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03839235499407 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05087896185328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20476628743572 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07641818348565 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13933926043855 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01197426896078 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492197460071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03845484507192 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05094258947195 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20464579583909 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07629795663916 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13924848068574 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01191449024280 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492130577531 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03851488353742 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05100762868214 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20452570693685 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07618248371977 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13915938976830 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01185617269391 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493370777898 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03857526436061 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05107042892834 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20441291034640 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07607076342187 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13907365363904 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01180073562379 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80494093505247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03863395350148 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05113122280886 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20430132446752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07596173782059 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13899048348066 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01174735947743 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80495277145378 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03869705713174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05119540093152 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20419548495877 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07585636022385 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13891058837412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01169342000927 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80495395692271 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03874382447193 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05124764675371 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20409147921549 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07575464357510 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13883321133226 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01164443278555 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80495322894540 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03878866295402 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05129592450961 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20398775396040 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07565521885146 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13875763826036 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01159488945163 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496056806870 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03884123395162 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05135111928456 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20389378348678 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07556107313435 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13868590083427 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01154767961075 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496789658305 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03888948345846 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05140298027040 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20379599708331 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07547005010802 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13861465692988 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01150155765627 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496449069064 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03893071408005 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05144498032914 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20370734793170 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07538164078949 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13854693652988 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01145774602730 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496885207619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03897419442359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05149088607092 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20361951060341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07529561279837 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13848103570174 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01141440574245 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496924599761 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03901624872045 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05153468909431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20353167123601 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07521254670227 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13841793954380 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01137231058349 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497326420497 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03905493590312 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05157709472432 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20345031836718 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07513241287229 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13835575146816 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01133251642955 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497675996668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03909143721549 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05161611173801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20336936398842 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07505548076599 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13829686149189 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01129325166546 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497313232363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03912768671059 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05165323833552 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20329288415353 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07498040252937 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13823969876976 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01125603363299 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497726258612 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03916250970290 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05168919969176 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20321941980743 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07490895315901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13818361644168 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01121983360310 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497110355910 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03919085106630 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05172093802557 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20314659875659 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07484028023564 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13813013634708 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01118430117851 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496972607931 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03922108850271 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05175221714734 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20307822996412 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07477268609018 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13807786807474 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01115064529810 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80497695057611 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03925746900278 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05178961496266 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20300799839569 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07470740258857 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13802781900355 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01111781574216 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496965028181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03928090367102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05181621006581 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20294714009855 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07464505922988 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13797968762412 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01108580136322 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496533083926 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03930840305619 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05184234631861 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20288054029161 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07458374172938 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13793297438615 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01105497573071 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496836407069 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03933637598962 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05187420398014 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20281930900505 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07452445442885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13788798167227 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01102510106623 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496604169692 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03935939295615 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05189673112663 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20276225405034 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07446894365818 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13784450588781 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01099652636470 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496587133208 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03938489982596 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05192612282196 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20270407131678 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07441435648930 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13780158577448 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01096853727196 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80496976527512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03941309453262 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05195508740717 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20264868922005 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07436220814153 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13776055493182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01094199042020 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493423116003 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03941815913038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05196705037248 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20259342591322 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07431130052622 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13772082444662 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01091509078376 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493649835568 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03943933296459 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05199205655095 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20253904828615 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07426168619159 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13768249562353 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01089113328518 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493833440686 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03945968042068 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05201690934082 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20249007196211 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07421428365305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13764607692586 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01086607514730 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493932623413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03948018784308 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05204076955368 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20244174532263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07416802082039 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13761047957524 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01084341805867 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80493216815215 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03949702043006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05205488509246 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20239778085433 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07412421204140 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13757572921802 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01081990789228 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492736553469 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03951559008315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05207317556848 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20235188630158 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07408118841421 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13754209252457 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01079885847823 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492544839484 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03953273709502 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05209260939627 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20230840601774 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07403933994773 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13751072316492 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01077750475628 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492614106043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03954779628425 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05211046392939 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20226646040422 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07399976785469 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13747966998857 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01075712917109 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492511964512 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03956263576021 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05212781567430 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20222895006506 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07396128005855 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13744965684186 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01073794697956 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492505333491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03958287457396 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05214514626309 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20218816810998 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07392460304171 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13742125923353 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01071972710088 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491996505008 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03959769331575 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05215919966000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20215104550387 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07389055555013 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13739334858979 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01070084423401 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491666486249 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03961145308116 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05217365946219 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20211461660918 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07385632246694 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13736653268537 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01068225032619 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80492426378098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03963159497478 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05219657803103 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20207922925828 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07382292092988 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13734019478721 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01066515958867 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491935014510 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03964120662690 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05220786644406 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20204810163032 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07379020861902 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13731530930006 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01064943042408 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491615956341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03965218740847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05221983507010 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20201268790816 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07375838924020 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13729147863435 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01063367406111 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491416502730 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03966675747531 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05223216097919 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20198112532854 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07372942435205 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13726785325313 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01061766060690 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490946081540 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03967607652817 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05224210166447 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20195084582372 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07370005950986 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13724500222694 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01060277961744 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80491475090765 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03969390650066 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05225977239499 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20192248991721 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07367218150419 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13722424825459 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01058800547632 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490713165594 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03970217082064 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05226831070897 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20189509319445 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07364501813073 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13720377082191 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01057404737052 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490307786711 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03970964142561 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05227671847045 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20186555686204 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07361930036973 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13718313433903 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01056125046699 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490620829103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03972360541987 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05229231510991 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20183911232418 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07359403402127 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13716332510110 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01054786464704 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490246925230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03973038181480 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05229991116656 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20181497715714 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07356926922220 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13714404639360 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01053599427481 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489751515592 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03973536624194 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05230600357912 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20178945741835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07354601202024 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13712576157583 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01052328531890 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80490207516873 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03974858992460 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05232077977110 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20176615399747 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07352296081612 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13710857904328 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01051198834059 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489823683102 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03975872937566 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05232694875487 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20174417982342 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07350200243680 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13709176300749 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01050108375168 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489405294040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03976518427896 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05233200446042 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20172225547661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07348231908324 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13707492578976 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01049027675093 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489384841951 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03977638403403 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05234402624431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20170280038560 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07346247359265 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13705962184617 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01047968283721 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488547670135 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03977982346174 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05234712487785 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20168034490614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07344273854812 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13704469779439 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01046972536595 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80489038982125 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03979008258912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05235973359123 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20166139911751 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07342393924002 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13702966860616 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01045928954572 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488447975368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03979391181054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05236249747965 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20164135144759 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07340606738683 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13701544328037 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01045042834049 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488500559043 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03980284355833 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05237293080492 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20162253792886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07338840904606 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13700243204200 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01044091247206 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488271982282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03980633894712 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05237643706678 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20160377375350 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07337032262121 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13698918384134 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01043253118385 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488263975925 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03981463990892 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05238638216301 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20158723319838 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07335456188615 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13697645139214 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01042351603625 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488470247849 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03982338146735 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05239506825797 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20157035855398 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07333853114415 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13696437046752 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01041660555454 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488066431103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03982521868945 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05239735083614 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20155367813820 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07332340434841 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13695317471897 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01040759296631 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488078146578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03983257509270 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05240622788328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20153876786175 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07330862656818 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13694123427506 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01040068198013 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487478080461 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03983754749096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05240738222562 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20152582162424 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07329431132891 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13692997983197 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01039309627271 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488592972046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03985141349137 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05241747989691 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20151020145077 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07328062440672 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13691917707008 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01038580677352 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488393322165 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03985900911705 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05242466929865 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20149676532759 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07326723717062 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13690900541245 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01037907987857 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487577953183 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03985800060922 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05242365933402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20148301237051 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07325444213494 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13689934063445 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01037355226685 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487614439737 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03986374214168 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05243020126063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20147105976712 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07324278447254 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13689017234975 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01036627117334 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80488096030104 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03987225550255 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05243883387946 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20145740402947 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07323027593479 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13688020843787 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01036020517158 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487363649142 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03987142706769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05243720942722 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20144564129249 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07321932163559 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13687190239713 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01035496147169 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487306975858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03987684837551 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05244354755821 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20143485600651 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07320871177973 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13686369112097 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01034880228489 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487480324531 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03988251842220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05244934672131 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20142379255934 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07319790371515 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13685472456404 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01034342421043 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487741729243 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03988917240033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05245582659891 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20141292345013 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07318761637711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13684790543708 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01033797620185 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487312965218 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03988800047156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05245424495594 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20140254714023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07317749977792 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13684000754193 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01033316614365 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487323065105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03989320363123 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05246014037885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20139161130833 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07316788947592 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13683193932564 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01032831410308 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487429527585 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03989826556996 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05246582164420 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20138164373062 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07315887995297 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13682502931055 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01032312802297 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487456269614 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03990278551040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05247094894533 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20137186036210 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07314988558537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13681779726398 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01031849344445 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487481431578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03990687152730 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05247570304121 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20136280092462 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07314123816524 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13681134056540 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01031407795775 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80486710922196 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03990286509139 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05247184419912 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20135352397602 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07313308706482 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13680488066182 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01030979819564 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487095436924 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03990855090372 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05247790888523 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20134691031695 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07312509876490 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13679809780557 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01030597784186 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487011765230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03991233487079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05248167470608 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20133633033182 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07311709507819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13679262631519 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01030183195291 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80486961035087 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03991585157338 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05248587150093 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20132846803690 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07310992231380 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13678658984266 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01029836436887 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80487080983953 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03991970499402 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05249029194580 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20132109465836 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07310297629111 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13678066684300 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01029462595050 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80486308806451 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03991552387386 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05248549500851 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20131424094696 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07309582742637 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13677593622507 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01029130612114 at nshe,nfasti = 7 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -5.996E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.067E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.80486136239452 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03991824663588 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05248882406189 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.20130657591871 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07308885011626 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13677046900609 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01028798170338 at nshe,nfasti = 7 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 38587 TA= 7.70000E+01 CPU TIME= 8.31355E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 36.6074044444444 %check_save_state: izleft hours = 43.3133333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.108E+03 MB. --> plasma_hash("gframe"): TA= 7.700000E+01 NSTEP= 38587 Hash code: 53607904 ->PRGCHK: bdy curvature ratio at t= 7.8000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 77.000000 ; TG2= 78.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 77.000000 TO TG2= 78.000000 @ NSTEP 38587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.34769E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.36499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.36499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.34769E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.36499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.36499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.21223E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.75808900000993 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.76596212799731 q( 3 )= 5.84525088982161 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9487E+00 8.4389E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.68609556151365 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15815085063621 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08899584503870 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.05769925891907 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.28877051511587 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 2.01033545517660 at nshe,nfasti = 7 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12744 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.88478722610817 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27690193853078 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.22780684311670 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02231987143766 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.06620344579055 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17179717550059 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.96856414507645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33087939830054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.27483725151506 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02414857240329 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.05696660562140 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16597867279159 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.96741977447412 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.33941994646121 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.28399638559800 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01520248459367 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.05855948093616 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16716678293433 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.96850515549605 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.34664519775367 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.29376034270131 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01182214931664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.06175132374218 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16978094342398 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.97390936337381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.35579750122434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.30505980956186 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01042647671446 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.06532876767145 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17276333851667 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.98177730827458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.36608225747072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.31686058415692 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01003391367637 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.06896551745796 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17588844457355 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.99082971040363 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37661778428431 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.32966496989846 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01023835440562 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.07255286332088 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17906707976994 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.00100946574252 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.38682770222501 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.34218894882917 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01077752064964 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.07603268431974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18223354260299 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.01149961873901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.39666171987321 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.35428376487838 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01122954924300 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.07937218125879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18535446999494 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.02198217983333 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.40613174932496 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.36589321190967 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01172166919424 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.08256581658087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18840581069347 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.03225994089207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.41517686000702 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.37700051874312 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01234938191731 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.08561566758871 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19137364406187 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.04224672833208 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.42381456683247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.38760699428731 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01303815414921 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.08851161034869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19424512322173 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.05194836453379 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.43208815144699 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.39774771616052 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01375628389330 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.09126297406256 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19701252415399 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.06131582410960 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.43997683730349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.40741593337688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01452264026578 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.09387674872950 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19966976657712 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.07035524382624 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44751442387608 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.41665649087441 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01528819507893 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.09635811642216 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20221806225007 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.07904400372846 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.45469834378283 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.42546496685398 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01608586440418 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.09870909786865 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20465247154794 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.08738195003860 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.46154614266443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.43386431966007 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01689250854942 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10092626294434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20696427974464 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.09538038769134 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.46806777841861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44186498387677 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01769007215200 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10301122422552 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20915800254261 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.10307144466739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.47426400998469 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.44946201075005 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01850187984976 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10492655796404 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21122951872693 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.11043384197044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48016625369697 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.45670035910489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01929825866903 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10670095332087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21317977855157 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.11744048014542 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48576032024558 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.46356436126539 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02004691052889 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10835219776187 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21500744085089 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.12415427619161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49110221151658 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.47010990598414 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02076755427987 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.10989171895115 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21671885972984 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.13056064767514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49618062779725 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.47633261735769 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02145986220620 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.11132323800867 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21832500429231 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.13667143108109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.50101339231311 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48225760312063 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02212948985720 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00090373251787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11263932729440 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21982577518658 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.14247064557096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.50558929221526 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.48787299937695 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02271041963255 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00171561540625 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11384483780854 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22117595696807 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.14800618442074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.50993959061159 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49321073398801 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02328121560135 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00250022506523 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11496705781222 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22249596374456 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.15327405507712 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.51406550397101 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49827406259243 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02383205407953 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00323207672487 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11600632350141 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22372248668606 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.15828683716461 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.51798088074011 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02436543725443 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00392008191212 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11696111419438 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22486000220426 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.16305915952861 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52173236780800 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02485869736858 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00455538310546 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11782497569911 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22591490968864 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.16758522039201 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52528938929791 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02532353101834 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00514483638276 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11861483838129 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22688564788577 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.17185476740116 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.52864020160711 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02574041554666 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00567371075247 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11932224251376 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22772608910191 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.17590329568488 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53180852069932 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02615180342978 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00616601732328 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11996794099069 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22852311644555 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.17973319343697 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53479969003393 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02654155881809 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00662013795918 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12054942892885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22925422620092 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.18334895150132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.53762087190043 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02690731912366 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00703815692094 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12107167659616 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22992041708531 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.18677065910647 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.54028265977584 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02727063746501 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00744713323755 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12155254956357 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23059372592203 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.18998917861376 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.54278760207049 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02758481771458 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00778914678245 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12196485918562 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23112054210680 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.19302033260807 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.54514033269669 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02787298567745 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00809595684724 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12232383165133 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23159187059711 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.19588436679949 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.54735912884247 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02813786227687 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00837107830308 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12263715577734 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23201217992966 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.19856295179322 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.54943035387842 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02837854464657 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00861059406169 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12290510620792 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23238332074226 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.20108287306237 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55138092912129 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02859314606638 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00882309923787 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12313494203239 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23271811972640 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.20343532779044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55320300143353 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02878611033277 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00901006944138 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12332521108318 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23301207985286 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.20563806662380 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55491394196297 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02895825100429 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00916761506243 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12347875226956 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23326480053949 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.20773426749905 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55654958259767 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02910806722276 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00929830535060 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12360005329897 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23347987057316 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.20968430347597 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55808113793707 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02923485848436 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00940594131102 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12368859401617 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23366003716447 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21154057977284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.55954459254217 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02934548945810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00949219941244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12375169059296 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23380764643416 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21331925020578 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56094180729321 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02943909246859 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00955843511402 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12378841713888 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23392512046185 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21487672457538 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56211837847559 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02951026331188 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00960280224995 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12379941609563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23401348784013 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21633477598219 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56321515169218 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02956858863060 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00963027872699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12378689493210 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23407665806057 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21773654023794 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56427676297512 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02960733340807 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00963797742741 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12375605959160 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23411581530444 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.21905653719672 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56527843724924 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02963666781897 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00963092664834 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12370540090011 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23413254621024 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22028807296377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56621385683299 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02964473830447 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00960671285587 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12363616394413 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23412840222500 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22143672362085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56708606897754 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02964326215433 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00956913692756 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12355340253054 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23410498780920 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22250620882659 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56789759235339 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02963065027292 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00951865627882 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12345470546975 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23406500792002 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22349819498915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56865865124972 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02960239257190 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00945561161116 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12334301135167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23400937434534 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22441113302185 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.56936943597829 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02956692819819 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00938335058174 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12322141829941 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23393928477124 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22526229330818 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57003073994394 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02952013602767 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00930059762113 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12308750356639 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23385706695382 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22605258133916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57064544749307 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02946406734815 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00920867478058 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12294544502793 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23376279728377 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22679443337948 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57121973379935 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02940629410617 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00911504217592 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12279962390640 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23367834814889 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22749230063275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57176458763428 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02933835087444 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00901150781406 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12264438297240 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23357448679910 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22812942263286 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57226345674501 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02926317872646 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00890226419545 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12248291702198 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23346296117521 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22872937197331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57273401602213 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02918057316956 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00878593935606 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12231485087665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23334590207202 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22929301737916 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57318039239361 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02909063255690 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00866484845557 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12214378075734 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23322163132928 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.22981397751284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57359285773592 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02899495604305 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00853868857397 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12196836089106 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23309226126125 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23029431712633 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57397683634832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02889518496661 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00840869445210 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12178911109574 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23295831330316 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23073097862519 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57432963709621 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02876422581812 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00824281640860 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12159194858956 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23273748936312 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23114665972988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57466455223166 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02865248730426 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00809962252111 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12140379017167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23258196236129 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23152188971939 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57496930469550 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02853823308745 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00795566405298 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12121618276034 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23242568532023 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23187872979555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57526169554148 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02842158194725 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00780825396876 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12102746078877 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23226922657132 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23220364899518 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57552944368772 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02830288067042 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00766160938954 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12083768821322 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23211080809592 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23251091771839 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57578551430013 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02818044520533 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00751346759001 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12065029266590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23195212528191 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23279406397004 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57602322528167 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02805831503015 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00736559504213 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12046456237420 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23179313893759 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23305105752409 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57624125123724 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02793353985664 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00721641491715 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12027664555697 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23163313759310 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23329471956081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57644983296116 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02780800238602 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00706628990613 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.12009194988940 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23147394246981 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23351544935560 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57664076189834 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02768098646369 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00691713599589 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11990895398993 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23131640081614 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23371796424458 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57681771655764 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02755484184985 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00676871394149 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11972687268120 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23116020129719 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23391344878368 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57699082383776 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02744790099796 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00664392281710 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11956122744298 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23106698943528 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23408810242187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57714930108554 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02732013089217 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00649804139217 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11938335799782 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23091179841742 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23425914644282 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57730546105708 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02719365737795 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00635088805717 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11920987335427 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23075616260145 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23440537148961 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57744111016758 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02706607997894 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00620352366168 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11903671173885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23060220342301 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23455529118702 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57758043726206 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02693843824337 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00605909669067 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11886630498084 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23045137286197 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23468149586776 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57770117417440 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02681109491818 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00591510221255 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11869903967625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23030115259114 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23480212233589 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57781838035498 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02668594349961 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00577395878147 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11853387570643 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23015314133048 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23491259657766 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57792682273624 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02656294064375 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00563362969134 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11837313084742 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23000754752180 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23501972214731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57803366696877 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02644164536815 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00549608754649 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11821496515690 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22986412977045 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23510385087462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57812051767243 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02632036294339 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00536102662614 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11805858077424 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22972446830478 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23519949078975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57821872301992 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02620241947743 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00522676710953 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11790651478176 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22958836602743 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23527559413884 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57830049554799 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02608417232651 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00509541273318 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11775583076276 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22945347338671 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23535050444103 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57838220729020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02596890354869 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00496760796397 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11761187690662 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22932149974758 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23541733436137 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57845679920403 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02585535706961 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00484070578341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11747019970539 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22919311550304 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23548611456098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57853382162673 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02574509433626 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00471643687677 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11733078162795 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22906763452448 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23553652057832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57859373180505 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02563710044521 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00459597314571 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11719606195568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22894452347691 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23559088225952 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57865811565815 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02552969272793 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00447737732714 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11706346671906 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22882645207246 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23564732577865 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57872499139959 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02542555726433 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00436281583349 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11693564102791 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22870892836053 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23568630313526 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57877591029910 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02532205584312 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00424798579493 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11681083257948 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22859544456315 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23573062530038 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57883192258886 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02522207973285 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00413667695523 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11668788211112 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22848541401634 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23576716714808 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57888248400615 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02512462177326 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00402869555425 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11656953707380 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22837746739955 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23579763673674 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57892625001726 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02502566304654 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00392376265757 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11645385133480 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22827205003510 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23583284062668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57897532791164 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02493184428727 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00382035323131 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11634207435996 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22816972732369 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23585641425850 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57901182227825 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02484044804056 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00372065423606 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11623215798221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22807181198878 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23588197235569 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57905296231012 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02474922435237 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00362321456105 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11612728416868 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22797559320751 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23590584757292 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57908993696440 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02466175567166 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00352763635036 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11602474322404 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22788188581699 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23593417957792 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57913239769731 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02457738777077 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00343377978055 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11592419184849 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22779117771532 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23595899385648 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57917025010746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02449145974801 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00334256598646 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11582676973895 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22770309682829 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23596946631209 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57919735563775 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02441055519449 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00325504519938 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11573311207785 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22761795534718 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23598670976997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57922818780653 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02433115828340 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00317029459421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11564240143064 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22753549325824 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23600977148931 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57926581484882 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02425506825957 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00308690604131 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11555503654038 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22745468543877 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23602126055661 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57929060860704 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02417922380706 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00300642633811 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11546886883388 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22737663278350 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23603847431449 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57932255539430 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02410604417572 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00292750224421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11538534786707 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22730200949445 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23604360893933 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57934190709681 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02403567577323 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00285222270461 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11530611866536 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22722955139305 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23605417174188 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57936776151079 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02396650962242 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00277806582083 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11522733842665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22715897198440 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23606458047652 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57939070461811 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02389809597176 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00270657465752 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11515257036861 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22709095966032 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23607083913238 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57941054790051 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02383254731679 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00263607075023 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11507941129433 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22702448913728 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23608329264532 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57943741093539 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02376877773128 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00256917023865 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11500779124382 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22696090911790 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23608689855187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57945386723069 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02370710787240 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00250377177404 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11494006725922 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22689884055878 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23609570231106 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57947525297785 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02364666755581 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00243969449161 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11487427298885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22683785109253 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23610345729902 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57949631695330 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02358876264125 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00237855479825 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11481007439488 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22678089054215 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23610944111157 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57951455716126 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02353163716858 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00231853555284 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11474775663386 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22672422741525 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23611170829918 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57952973542666 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02347710258962 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00226042039252 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11468754448277 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22667071069917 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23612494022002 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57955433744999 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02342387775716 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00220442743068 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11462982339152 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22661777927755 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23612518002946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57956689275299 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02337309580633 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00214990890941 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11457407315590 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22656750480621 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23613372607105 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57958598954175 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02332288900801 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00209775517721 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11452067269309 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22651816315867 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23613130058993 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57959507907783 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02327388544303 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00204676917594 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11446772735307 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22647124766902 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23613633657539 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57961207733570 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02322687629182 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00199791662895 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11441750036718 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22642610104180 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23613907635303 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57962622895970 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02318097297571 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00194991949166 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11436934603584 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22638185080094 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614239118170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57963927825291 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02313428707487 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00190371925054 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11432135962481 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22633929450913 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614513581626 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57965148498228 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02309262376816 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00185904206001 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11427597523720 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22629844240148 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614414583207 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57966120935948 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02305129399810 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00181593804344 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11423271346497 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22625842709680 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614423408562 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57967222500849 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02301241588429 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00177419274699 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11418936129087 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22622080198279 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23615272708241 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57968866909082 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02297294890732 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00173391754513 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11414856720885 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22618398880637 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614971245485 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57969548219936 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02293451341935 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00169474089370 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11411014805604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22614882508663 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23615474436966 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57970914801117 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02289842028227 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00165702519493 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11407222151411 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22611494263016 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23614923800130 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57971356042710 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02286319482700 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00162081602835 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11403568340464 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22608045195057 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23615828047723 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57972850947973 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02285649667222 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00161646581288 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11401376507852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22612673445921 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23616137921689 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57974133855780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02282335953209 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00158592690368 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11398359549391 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22610238317911 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23616757546674 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57975463851751 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02279085870489 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00155377678122 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11395123333913 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22607529890372 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23616351800721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57975925544528 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02276071623515 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00152422523244 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11392101257864 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22604833636003 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23616763243288 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57977080296272 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02273050792696 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00149468397872 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11389120949108 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22602269293808 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23617975790601 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57978899382293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02270093994444 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00146495123661 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11386248295585 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22599794221365 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618143960514 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57979931894312 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02267263153694 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00143674761077 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11383358740136 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22597320181940 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618269934613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57980728336367 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02264490596626 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00140888952565 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11380729555881 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22594899674524 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618076920321 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57981277354142 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02261937979772 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00138213252328 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11378064406594 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22592630632680 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618193996466 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57981944843462 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02259248496399 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00135580124331 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11375481674285 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22590405321996 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618856052701 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57983237722718 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02256824039588 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00133042919535 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11372955929488 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22588259044119 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618648946566 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57983653096565 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02254442785268 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00130635222371 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11370560462775 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22586206874163 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619163962247 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57984741759995 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02252130802029 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00128291804656 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11368214864282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22584135276511 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618727442874 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57984930315590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02249854772423 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00126031295956 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11365959293401 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22582207305656 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619240813783 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57986076093429 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02247744616939 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00123909343380 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11363838819469 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22580338080597 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618528749163 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57986084357979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02245755696257 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00121800944074 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11361835501228 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22578615190184 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618935307081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57986957616767 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02243617754405 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00119825716819 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11359946771657 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22576891925673 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619288155198 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57987754247044 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02241715718146 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00117811776284 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11357892602349 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22575236445432 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618468295679 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57987600566269 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02239952579662 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00115905523376 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11356105980016 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22573677874676 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618758202344 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57988268927672 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02238083769653 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00114097960477 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11354268886353 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22572103361058 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619014628756 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57988946819080 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02236401721560 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00112316700474 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11352662283340 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22570570656378 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619217644547 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57989584254995 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02234743927564 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00110653368772 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11350911229486 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22569207480751 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619211932001 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57990039791172 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02233011722369 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00109014798753 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11349337498096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22567706424329 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619339772448 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57990519762840 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02231529437518 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00107494120989 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11347836581681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22566424744673 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619348077474 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57990963784096 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02229944092361 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00105994635863 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11346379272354 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22565081211680 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619319882418 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57991348264986 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02228627156337 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00104504566326 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11344940585236 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22563931723123 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619269973541 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57991832311127 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02227113145974 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00103101158919 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11343617974201 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22562706659021 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619096772641 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57992109381328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02225806399875 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00101747815625 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11342205711171 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22561611497677 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619834340809 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57993104726259 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02224465169110 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00100471662251 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11340998383681 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22560497701776 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619641484405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57993304276067 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02223284460981 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00099197894499 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11339646748407 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22559456848626 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619484647988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57993453493198 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02222019123436 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00097907734936 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11338383865123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22558300753233 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619246878738 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57993597898677 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02220892385304 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00096759582761 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11337357811899 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22557340127321 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23618926103175 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57993655366656 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02219731453055 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00095556634928 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11336131988624 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22556369407624 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619736857312 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57994611303526 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02218556261569 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00094477412021 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11335206825919 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22555503970369 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619408081414 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57994609320121 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02217631104630 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00093394133198 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11334101772806 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22554653595650 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619120517780 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57994617215663 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02216490743016 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00092388072002 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11333079483537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22553786043842 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619749002400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57995413209193 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02215517519566 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00091464764622 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11332171248840 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22552959728787 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619375387773 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57995357589342 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02214625729642 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00090521113658 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11331250430459 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22552128512084 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620096821669 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57996189861714 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02213720974639 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00089566836265 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11330420668440 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22551391526888 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619712004678 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57996092948973 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02212758555528 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00088750710468 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11329523118096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22550615079168 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620165883072 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57996768351591 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02212009826240 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00087901467367 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11328696190329 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22549887894483 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619761236311 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57996617374308 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02211184880000 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00087058582500 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11327934712624 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22549203298263 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620237749968 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997276675953 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02210309864194 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00086280144981 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11327154609430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22548598528248 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619761551546 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997064227303 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02209746006271 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00085489386421 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11326378810352 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22547933680459 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620247224915 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997684580349 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02208908041338 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00084755596915 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11325692828620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22547309245594 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619694980681 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997442758590 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02208155777795 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00084058859345 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11325069675918 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22546787090372 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620118781111 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997987225127 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02207371402609 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00083436626038 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11324426901998 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22546204993339 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619513556677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57997801902466 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02206931455092 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00082793833665 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11323827454779 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22545672722083 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619925579508 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57998342058578 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02206190808326 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00082142714424 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11323126960109 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22545093094802 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620183141296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57998798589865 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02205564699858 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00081511537336 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11322470939259 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22544654416428 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619533235703 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57998433440968 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02204997930854 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00080928476571 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11321999030228 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22544179286245 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619920198115 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57998897038826 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02204462431024 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00080392369181 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11321531428950 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22543687853285 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620271806033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999346216319 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02203969533436 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00079837735529 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11320999398525 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22543248986752 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619543721938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57998904860896 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02203378476534 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00079292847400 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11320505248462 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22542817428021 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619867511500 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999299958259 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02202905988656 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00078774475341 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11319843607358 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22542392357396 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620157858398 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999688896788 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02202409540157 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00078273896104 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11319376084967 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22542009452543 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619427553265 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999244942125 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02201871144499 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00077786317263 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11319001191014 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22541607001666 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619765462595 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999649664354 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02201560131376 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00077379206277 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11318673601076 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22541308336045 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620056174873 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999999732327 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02201069133134 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00076962055374 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11318264924151 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22540963611850 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620296967351 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000333348036 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02200671220212 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00076527153479 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11317869788558 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22540613411528 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619650932555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.57999861253621 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02200216590788 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00076113490435 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11317399610279 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22540283723181 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619850005933 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000162731971 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02199769539169 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00075718453183 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11316931349921 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22540028004541 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620112799220 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000500362074 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02199423447737 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00075322038663 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11316610695633 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22539691162763 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620332540539 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000792842788 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02199076832466 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00074958368286 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11316313330544 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22539395816552 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619650775225 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000254189736 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02198811115669 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00074656162886 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11316098994717 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22539103264178 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23619851488778 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000524867927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02198564899486 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00074353646860 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11315785075073 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22538815510073 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.093E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.674E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.23620139392205 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.58000840174996 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02198171977439 at nshe,nfasti = 3 5 %fp_imp warning: RF renorm adjust = 2.00074003226159 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.11315455901795 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22538532232427 at nshe,nfasti = 6 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 39087 TA= 7.80000E+01 CPU TIME= 7.96595E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 38.6478422222223 %check_save_state: izleft hours = 41.2727777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.818E+03 MB. --> plasma_hash("gframe"): TA= 7.800000E+01 NSTEP= 39087 Hash code: 810548 ->PRGCHK: bdy curvature ratio at t= 7.9000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 78.000000 ; TG2= 79.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8820E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 78.000000 TO TG2= 79.000000 @ NSTEP 39087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.23289E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.44651E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.43364E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.44650E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.48874E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.23289E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.44651E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.43364E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.44650E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.48874E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.73863700000220 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.73225207143617 q( 3 )= 5.82577713530223 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9510E+00 8.4393E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 535.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 535.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 535.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 428.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 428.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 428.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.02472664470676 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.49678562718245 at nshe,nfasti = 6 5 %fp_imp warning: RF renorm adjust = 0.417487909125325 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12744 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.48696534379942 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07210433995530 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10727452533197 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.399633979048457 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.45645426986444 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06386454615708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09375642790258 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401533157121295 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43441042484489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06346712700203 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09050727983331 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401539335126523 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42985478583313 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06412975265144 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09025011157151 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401271610323168 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43262139155217 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01712995336292 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06510752871421 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09090437040032 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401157189718450 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43804237131642 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07384233123324 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06610059781116 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09186742740942 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401087996444108 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.44447723458135 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.17371250751914 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06685602962334 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09289192601695 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401042596652071 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.45124956634368 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.26513163487237 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06726234256030 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09390158910066 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.401009437149168 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.45827011307685 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14002315192567 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.06778621849572 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09497723001142 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400985284161191 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.46660977361064 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07444944065798 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07016364015790 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09646718358944 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400966595710911 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.47480166093618 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03163529286732 at nshe,nfasti = 4 5 %fp_imp warning: RF renorm adjust = 2.07232459138309 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09783571433326 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400951885383656 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.48255820828985 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07429103333464 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09912804721293 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400939771308770 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.48982666992072 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07610205550548 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10035476391217 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400929100235964 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.49664079723483 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07761717881611 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10146073536540 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400920594994589 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.50315053481456 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07902611502898 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10250096171324 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400912819035163 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.50941320632141 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08035813097900 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10347314844222 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400905958512299 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.51548464896866 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08160740931138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10438006967042 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400900204196302 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.52134515397477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08277679362436 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10521828037495 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400895068613953 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.52699748350229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08387529787094 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10599219337426 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400890009413997 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.53241769808462 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08490193460908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10670537293239 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400885773640515 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.53760330610943 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08584731164020 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10735848064573 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400881708972637 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.54253842918195 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08671686409802 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10794641411830 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400878126257656 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.54727372742619 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08752081271152 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10847583175396 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400874819748595 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.55177841755232 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08825745466620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10895063946534 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400871876611873 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.55610963959556 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08892136853669 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10937389358403 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400868892966891 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.56022592697347 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08951452776810 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10974250508298 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400866090154190 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.56415428744101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09004678547294 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11006383052556 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400863355771588 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.56790525348452 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09051729486147 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11034096030482 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400860968239761 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.57142878317402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09093303920404 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11056892444650 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400858828996085 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.57476232203722 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09129137858522 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11075572207408 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400856585304744 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.57791446113131 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09159938649766 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11090400899812 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400854657855304 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58085398220559 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09185782709941 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11101222161880 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400852889145220 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58362734648975 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09206927328828 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11108766322513 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400851143826304 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58621758983404 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09223558543495 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11112857137459 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400849428589741 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.58866119263619 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09235748484998 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11113696143292 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400847848986223 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.59096530794302 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09243333087079 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11111707133366 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400846228878610 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.59307612783692 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09246891634038 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11107074715739 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400844516500019 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.59505981263606 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09247375118255 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11099932928776 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400843136299823 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.59690176304940 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09244805308430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11090329970465 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400841772590262 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.59860498835612 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09239180744940 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11078650020009 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400840531247333 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60022082815627 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09230940977256 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11065014618411 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400839345758264 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60170375244407 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09220214452897 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11049642913853 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400838087387720 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60303496122019 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09206434737057 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11032370685826 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400837054542533 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60427241560177 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09190584973183 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11013740718075 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400835954794723 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60540390762187 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09172783058672 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10993675857169 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400834989243432 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60644264016938 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09153452698689 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10972267572656 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400834009317512 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60741651395086 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09132749461860 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10949650779624 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400833056082915 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60830814448696 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09110598822950 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10925910822824 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400832020527022 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60909015324229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09087072657413 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10901316389006 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400831134961726 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60982237409528 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09062462044142 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10875842265710 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400830357357417 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61047387532262 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09036984506233 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10849683252306 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400829480952564 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61105090303127 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.09010722509883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10823134374830 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400828846190017 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61158841990814 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08983880230951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10795830906247 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400828067028514 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61205507566139 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08956353324730 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10768397649244 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400827336165558 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61245538447977 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08927887169286 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10740742981253 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400826706941401 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61282614603681 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08898900253242 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10712963561427 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400826031140688 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61316141148653 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08869592404305 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10685053263542 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400825473613278 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61344932227392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08840208243034 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10657048215000 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400824802465197 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61369952344591 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08810606979425 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10629156424478 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400824279696928 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61391656669682 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08781039422314 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10601127256899 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400823757650381 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61408365817696 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08751384709373 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10573352618355 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400823307727943 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61423552613444 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08721646312179 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10545729477176 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400822736288272 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61435213044764 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08691894536570 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10518492225288 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400822212306646 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61443206118397 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08662186247971 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10491583183597 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400821729178441 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61448900289514 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08632495419869 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10464960120441 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400821270849422 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61451498063995 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08602787168336 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10438824358227 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400820825817777 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61452851532529 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08573139111282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10413047467586 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400820403859634 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61452315608556 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08543622983798 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10387628277308 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400819985087394 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61450722212722 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08514533073779 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10362699080587 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400819537082956 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61447952688235 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08485697195182 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10338137599823 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400819166489444 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61443485851181 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08457146783401 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10313933586384 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400818815949918 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61438087357641 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08429235809097 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10290360226038 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400818490527183 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61432895404501 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08401894686323 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10267186462545 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400818143606654 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61426727417569 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08374932398736 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10244663100693 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400817952580654 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61419852942324 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08348652297635 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10222460182364 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400817643764968 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61412195739776 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08322718454490 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10200916271830 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400817229241087 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61401681804784 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08297183251631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10179586959885 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400816963010792 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61393774332311 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08272465689700 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10158896181750 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400816593586318 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61385294626159 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08248406749724 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10138757507033 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400816401107729 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61377291085990 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08224930634787 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10119192424179 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400816034752878 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61368983132899 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08202102583924 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10100039975723 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400815795896257 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61359241676691 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08179692064478 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10081442339459 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400815559172776 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61348736207865 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08157876354537 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10063337618792 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400815382583953 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61339595941187 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08136502709854 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10045556694453 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400815151034721 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61329742894939 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08115796807768 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10028432229676 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400814980993272 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61320591066076 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08095635437568 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10011835700318 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400814711122877 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61309880078198 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08075997586751 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09995662404639 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400814490959653 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61299968337640 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08057000629893 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09979851081737 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400814343707082 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61291606220460 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08038527696449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09964576802415 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400814102893410 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61282611112328 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08020548319890 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09949786673931 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813981284473 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61272592035230 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.08003157584628 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09935381837215 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813807305820 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61262234339303 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07986327744850 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09921606678614 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813752482796 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61252450651003 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07969787087469 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09907893673342 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813584908527 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61243962948112 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07953780164640 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09894944346700 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813424574256 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61234814819858 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07938437987879 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09882364585591 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813288161371 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61226347086332 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07923492039355 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09870136948628 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813098886881 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61217736336912 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07908942599974 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09858177041533 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400813030438736 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61208486038561 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07894884378023 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09846746608907 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812914365557 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61200249592912 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07881262908863 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09835657481352 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812721746321 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61192906910486 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07868230133579 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09824943334833 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812695974214 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61184006574401 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07855541598749 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09814603932553 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812645004142 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61176464130657 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07843171054795 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09804494541740 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812488468346 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61167822245450 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07831215657708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09794874572899 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812428217545 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61160507104505 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07819624390084 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09785473413558 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812272774552 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61152915385809 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07808433078013 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09776399378634 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812120553368 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61146299750476 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07797761942883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09767746805596 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400812129671294 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61139598440530 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07787349237519 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09759205204700 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811982667108 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61133082674523 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07777301576043 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09751091143010 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811938744517 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61125613572384 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07767516515466 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09743262521738 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811764194872 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61119379836006 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07758227524610 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09735719523754 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811732782791 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61114197025832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07749191052260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09728360904953 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811694615830 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61108306838051 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07740375076710 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09721428276484 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811594033510 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61102288287129 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07731876736556 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09714440369318 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811506282768 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61096583703222 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07723699351411 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09707818260897 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811378276875 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61090757534390 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07715857155299 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09701576369119 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811419934355 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61085986822743 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07708292430769 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09695421245353 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811358190775 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61081496171013 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07700918571902 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09689575965362 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811207378025 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61076599410885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07693891944060 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09683911779405 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811207943493 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61071565041932 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07687028090338 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09678464934994 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811150869716 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61066392387272 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07680504362675 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09673251265143 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811063031399 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61062313828573 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07674102476612 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09668187388231 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400811067423491 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61057602917989 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07667945898866 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09663220211493 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810996373731 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61053221673239 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07662024425282 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09658514612142 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810982502955 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61048975774693 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07656257350424 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09653927958680 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810828987956 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61045996587426 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07650820937565 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09649570257121 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810839632552 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61041502639868 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07645562776294 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09645338967252 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810810472283 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61038158619274 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07640421218505 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09641433022451 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810802070124 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61034784297224 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07635533820833 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09637303876896 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810653995258 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61031353239216 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07630892606979 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09633683827199 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810672804305 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61027471714018 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07626158014467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09630120422702 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810655366542 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61025085541910 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07621741776539 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09626434559261 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810666508907 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61021458255870 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07617426887266 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09623206530196 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810599645890 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61018956412552 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07613429302892 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09619965399765 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810536702358 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61016257254443 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07609420260592 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09616800039183 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810489456111 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61012760027625 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07605553070660 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09613888564717 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810445287289 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61010122511231 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07601982061356 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09611007604911 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810467713916 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61007439188623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07598427756894 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09608054596895 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810452828039 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61005877144800 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07594957053569 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09605457304706 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810438930785 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61003122794210 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07591672788350 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09602860491754 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810330030300 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.61000268866833 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07588457545796 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09600399221088 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810311139093 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60998726439865 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07585424695195 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09597898160694 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810306232041 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60995934502450 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07582531048816 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09595757057031 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810310709423 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60994838516267 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07579767556832 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09593576443451 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810312506186 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60993215063356 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07577072010449 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09591404896185 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810242655233 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60991449806745 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07574446278248 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09589429979455 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810265853349 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60989643458177 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07572004098550 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09587345157927 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810259807056 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60986652663366 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07569617452475 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09585629058430 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810160972819 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60986299504322 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07567320128204 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09583755311580 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810131591281 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60984550151603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07565064241278 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09582085830922 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810146218097 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60982721039211 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07562836082222 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09580344153987 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810147938780 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60980806784359 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07560828340716 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09578697373815 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810141169896 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60980056302125 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07558875021914 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09577129961154 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810079281602 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60978122268732 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07556995890351 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09575667300487 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810076921196 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60978161452322 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07555132926883 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09574241594425 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810104313269 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60976255835816 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07553385691632 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09572859361618 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810089186508 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60975514471452 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07551776832708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09571500664206 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810098446314 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60973417520265 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07549992259008 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09570248337593 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810084275077 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60972663687076 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07548486854259 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09568996359389 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810078685566 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60971804584883 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07546930871788 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09567799647718 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810023566724 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60970925547366 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07545419752804 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09566586066322 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400810009217845 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60970131674203 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07543982786674 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09565635966998 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809941099341 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60968139875659 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07542644879321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09564451346329 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809950064627 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60967199813436 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07541279168528 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09563484709544 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809944430301 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60966339208174 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07540130556260 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09562563870584 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809940657109 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60965317991147 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07538791246546 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09561539899552 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809935801388 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60964372252788 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07537737837925 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09560697174713 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809921004863 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60963449750979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07536523985807 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09559704561654 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809941035774 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60962574547365 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07535468711554 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09559024489391 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809949521708 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60962788912576 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07534403264536 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09558075523596 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809940632193 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60961836370055 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07533416989433 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09557245917441 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809930770372 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60960874597152 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07532500362017 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09556556750346 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809930737337 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60959924046293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07531438680586 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09555860918455 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809917158241 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60958961101386 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07530501067699 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09555087312290 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809927506516 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60959081823149 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07529647255929 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09554458936375 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809935019915 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60958095721840 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07528803271304 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09553780557416 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809933590743 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60957098639343 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07528025701418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09553163013839 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809918701891 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60957258419241 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07527315885919 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09552644064482 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809902480955 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60956246748542 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07526558418863 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09552097816013 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809900311434 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60956427203836 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07525873732936 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09551461947250 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809823202491 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60955371039626 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07525123208261 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09550890460491 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809846675270 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60954367963603 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07524513362041 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09550406112522 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809790358819 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60954525067654 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07523964476658 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09550002540472 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809802326333 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60953466672712 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07523291123476 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09549412887252 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809801837356 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60953572068962 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07522687766217 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09549067277693 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809800513891 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60953715617055 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07522052253138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09548534604419 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809802845348 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60952753304537 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07521492288952 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09548124130421 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809789263042 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60952790086218 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07521086654801 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09547730053736 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809776292168 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60951722664157 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07520624698233 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09547425953431 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809775135550 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60951874532586 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07520062396881 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09546974127573 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809773621903 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60950763630173 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07519555294199 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09546564791488 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809773365659 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60950852947566 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07519043578267 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09546248599962 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809780590168 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60950973065085 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07518532493123 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09545928096171 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809780650038 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60949899817222 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07518099669889 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09545672575766 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809779266565 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60949953804791 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07517818316620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09545332439291 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809780361651 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60950024048480 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07517407306819 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09545029007750 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809779325832 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60948972223322 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07516996907630 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09544736960780 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809774721066 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60949089759406 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07516679018969 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09544451904608 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809774059620 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60949110261651 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07516302150152 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09544178186583 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809773842995 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.191E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.859E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.60949199305639 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.07515950245269 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09543933839695 at nshe,nfasti = 6 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.400809765539341 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 39587 TA= 7.90000E+01 CPU TIME= 7.66616E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 40.6936580555557 %check_save_state: izleft hours = 39.2269444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 7.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 7.900000E+01 NSTEP= 39587 Hash code: 8419850 ->PRGCHK: bdy curvature ratio at t= 8.0000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 79.000000 ; TG2= 80.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7500E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 79.000000 TO TG2= 80.000000 @ NSTEP 39587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.19029E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.19029E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.25915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.19029E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.19029E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.25915E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.71579099999508 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.73196034005631 q( 3 )= 5.82785561960040 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9534E+00 8.4396E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.13949516819420 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.14684494815983 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06873833365931 at nshe,nfasti = 6 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12744 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.02458198453257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06312906724387 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08890565052337 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10362993171572 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.01016404839184 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07035938495073 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.02548688862113 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08243469138378 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.04196679920159 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09458631320430 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.05912979363353 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10674987643387 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.02930842975534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07615815433916 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.04795943057337 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08719962056221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.06426267369309 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09851411505202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.08068785278413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10962907101908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09710632553529 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12053912726252 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11320028301620 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13122495432665 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.06143591272324 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08524359778908 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.07747972249070 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09432965594252 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.09043438520688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10343387995467 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.10360561747629 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11222775915240 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11649106751462 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12074113202745 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12902164986160 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12896983979200 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14113109645476 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13690769338452 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15283295198613 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14455356697011 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16412315595702 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15190227205277 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.10128208775972 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09713656729659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.11246722809263 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10294794302633 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12061177438479 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10873324261339 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.12897925258117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11423685552577 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.13714516127052 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11949817088071 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.14502092982132 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12452831237491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15173845071710 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.12933694990473 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15785666440048 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13392601734818 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16376788905070 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.13829956029666 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16937697217871 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14246357469453 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17469742707410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.14642233205298 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.17973696113491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15018074885258 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18450996457150 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15374497712756 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.18902826613858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.15712246265543 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19330283508909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.16032122922077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.19735111937054 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00092679516670 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.16335226147096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20117524323654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00430687674023 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.16622023975871 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20477715336483 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00746257470813 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.16893092745458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.20817686912426 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01043421556466 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17149095600726 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21138189036001 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01323220657208 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17390760235492 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21439923095796 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01586574419063 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17618700223511 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21724246707090 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01834300988845 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.17833570421202 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.21992031687430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02067354794916 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18036087051683 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22243972518284 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02286462617559 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18226778458158 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22480968950107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02492366116590 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18406268612788 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22704051744449 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02685779225926 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18575050402216 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.22913830745382 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02867408649782 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18733802676836 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23111064338125 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03037991270192 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.18883070085947 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23296488878117 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03198188474198 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19023368127726 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23470815456656 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03348638367871 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19155189093901 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23634666031817 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03489876168861 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19279006391786 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23788654418694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03622462869007 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19395259930733 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.23933431307926 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03747077436006 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19504394340221 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.24069516004240 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03864223896814 at nshe,nfasti = 2 5 %fp_imp warning: RF renorm adjust = 2.19606832335380 at nshe,nfasti = 5 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.288E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.615E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.14582372085340 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11080704097661 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15381564780708 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11024035765689 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15435697256480 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11032671607304 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15466567312334 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11036047757553 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15492450247452 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11040204590379 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15516862064534 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11046068776640 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15540441361006 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11053550078400 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15563242773144 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11062313835810 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15585221344873 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11072007680737 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15606358221602 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11082326940942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15626660189769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11093026460184 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15646154537078 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11103922457612 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15664881658516 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11114863515458 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15682883276398 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11125742877491 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15700200722187 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11136484953800 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15716870238229 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11147030897287 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15732926672977 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11157337816024 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15748401482477 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11167374548890 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15763320261450 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11177119998193 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15777704050398 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11186560531406 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15791568155832 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11195686987198 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15804931052181 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11204493987850 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15817808047600 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11212982026161 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15830214401154 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11221153144657 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15842164799130 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11229011262651 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15853672146109 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11236561637980 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15864749802731 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11243810710778 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15875410917970 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11250765820604 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15885668268149 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11257435460852 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15895534732175 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11263827887944 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15905023150592 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11269951736308 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15914146188694 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11275815997296 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15922917036197 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11281429739351 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15931347599085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11286802307563 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15939449603381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11291942985077 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15947234927414 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11296860865625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15954715265887 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11301564886711 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15961903901734 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11306063799751 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15968812430645 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11310366208255 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15975450065903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11314480489002 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15981827124230 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11318414645966 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15987953634761 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11322176548247 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15993839214162 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11325773654963 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.15999493366134 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11329213372374 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16004925378732 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11332502738414 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16010144223341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11335648509598 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16015158609008 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11338657103351 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16019976844723 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11341534745637 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16024606876615 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11344287420682 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16029056336033 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11346920844598 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16033332571577 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11349440485002 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16037442650704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11351851600707 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16041393355551 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11354159182168 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16045191198304 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11356367984760 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16048842425852 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11358482543362 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16052353019809 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11360507176331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16055728713940 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11362446004636 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16058974993395 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11364302956679 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16062097095057 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11366081781348 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16065100048574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11367786099182 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16067988677895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11369419322717 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16070767598606 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11370984609061 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16073441220721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11372485019476 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16076013789921 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11373923482655 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16078489269085 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11375302936476 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16080871557742 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11376625876002 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16083164365688 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11377894818809 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16085371253777 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11379112171246 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16087495625222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11380280220267 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16089540739434 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11381401146232 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16091509717871 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11382477026418 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16093405543683 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11383509832618 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16095231076491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11384501446398 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16096989057244 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11385453661631 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16098682106760 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11386368181441 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16100312739381 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11387246630878 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16101883338118 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11388090529599 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16103396340895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11388901358058 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16104854131632 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11389680536268 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16106258606617 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11390429413183 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16107611753687 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11391149264665 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16108915518104 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11391841309625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16110171771345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11392506708195 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16111382314001 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11393146570243 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16112548869107 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11393761949622 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16113673093604 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11394353855028 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16114756580161 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11394923251324 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16115800852820 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11395471051136 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16116807378143 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11395998133438 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16117777566714 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11396505340708 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16118712768454 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11396993471895 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16119614283338 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11397463292942 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16120483362489 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11397915537993 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16121321203159 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11398350903932 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16122128959123 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11398770060364 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16122907741371 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11399173650476 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16123658612935 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11399562285208 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16124382599153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11399936551907 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16125080688182 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11400297014266 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16125753825350 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11400644206693 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16126402923074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11400978643817 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16127028456126 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11401300824398 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16127631467991 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11401611216588 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16128213012443 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11401910270669 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16128773859101 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11402198422113 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16129314754100 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11402476083672 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16129836420631 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11402743654983 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16130339553122 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11403001517013 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16130824823563 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11403250039016 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16131292873763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11403489570240 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16131744324752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11403720448658 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16132179776468 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11403943000625 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16132599801721 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11404157534888 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16133004955245 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11404364350620 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16133395773240 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11404563737132 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16133772767042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11404755967321 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16134136432290 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11404941306359 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16134487248432 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405120011053 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16134825672239 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405292323167 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16135152146873 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405458478091 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16135467101315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405618704096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16135770943789 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405773215659 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16136064070740 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11405922222003 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16136346866225 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406065926331 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16136619695236 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406204519096 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16136882912611 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406338186499 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16137136862378 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406467109666 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16137381870979 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406591457882 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16137618256177 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406711397039 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16137846326274 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406827088786 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16138066373359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11406938683714 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16138278682863 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407046330554 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16138483527920 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407150170483 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16138681175236 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407250342752 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16138871876717 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407346976342 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139055878351 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407440198434 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139233419299 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407530133545 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139404725060 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407616896555 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139570016170 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407700601138 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139729507306 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407781358806 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16139883400359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407859271951 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16140031893114 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11407934442240 at nshe,nfasti = 5 5 %fp_imp warning: RF renorm adjust = 2.16140175178339 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11408006969631 at nshe,nfasti = 5 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 40087 TA= 8.00000E+01 CPU TIME= 8.02572E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 41.9627038888890 %check_save_state: izleft hours = 37.9577777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.818E+03 MB. --> plasma_hash("gframe"): TA= 8.000000E+01 NSTEP= 40087 Hash code: 110169271 ->PRGCHK: bdy curvature ratio at t= 8.1000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 80.000000 ; TG2= 81.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7890E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 80.000000 TO TG2= 81.000000 @ NSTEP 40087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.85278E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.21612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.37854E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.21612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.37854E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.85278E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.21612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.37854E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.21612E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.37854E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.70355899998685 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.73960886202142 q( 3 )= 5.83774069557818 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9558E+00 8.4399E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.32720426478833 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12745 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.78266581168184 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 3.12987012150099 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.42148285322542 at nshe,nfasti = 2 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 2 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.25439141988909 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.76302227887133 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16530396005752 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.23358216709618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69846489241086 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.14617597010611 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.28680005942903 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67459333616285 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.15197596808662 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.35723548542963 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67045129669717 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.16676621695651 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.42554681693046 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67395719883999 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.18309908457516 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.48026149165392 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.67993092391932 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.19863320257252 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.52936485609555 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.68619497365545 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.21224999062219 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.56946049189203 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69131284176546 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.22350563766314 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.60043807766295 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69519528810285 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23219391957478 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.62417205364689 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69785789033421 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.23856298267230 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.64172712287197 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69950659496699 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24328128046232 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.65427426719654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.70033229117586 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24669266616169 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66295485598773 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.70060647934833 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.24895203912464 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66877884458080 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.70050985343162 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25054154511350 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67247242967801 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.70017603890010 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25156905194643 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67460275564341 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69968284388312 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25220097184575 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67563724511585 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69914092866481 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25253304964221 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67594387199790 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69860302715993 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25267278236005 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67570133517326 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69806855473210 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25266857329371 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67515438926165 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69756626241134 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25257302810502 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67443725413547 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69710684983544 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25242587236660 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67364275794627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69669084415005 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25224860143946 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67280382568180 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69631303329307 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25206179354915 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67200258430546 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69599086156350 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25187783894094 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67126618128792 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69572606712319 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25169558065882 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.67056523729627 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69549371900266 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25151834677212 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66994822383317 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69529548362548 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25136189218998 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66937209557257 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69511941397362 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25122539303709 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66888274086840 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69497975920040 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25109932542073 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66844517757098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69486063138744 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25098974477408 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66805635021542 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69475594927408 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25089243647075 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66772320949448 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69466949874184 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25080584288301 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66743985307201 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69460100058424 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25073399978761 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66720201375672 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69454590486479 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25066746271125 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66698729333755 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69449348972860 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25061354138014 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66680995582743 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69445586141170 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25056918310678 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66664845078792 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69441555254968 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25052644042150 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66651832418946 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69438696580569 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25050265303906 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66637970385206 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69434746931688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25047357172578 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66630574436147 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69434083954529 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25044941769872 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66620821024877 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69431478490025 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25042569454639 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66614646482505 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69430497798293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25040860706209 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66609065822858 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69429564724398 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25039346440812 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66603778596557 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69428344309596 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25037962752072 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66598984701129 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69427209863281 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25036940693783 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66594390684400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69425924608241 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25035918210204 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66593498708982 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69426406770796 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25035358881737 at nshe,nfasti = 2 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.385E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.297E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 4.66589297253636 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.69425099780987 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.50000000000000 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.25034762761169 at nshe,nfasti = 2 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 40587 TA= 8.10000E+01 CPU TIME= 7.98668E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 42.5737633333334 %check_save_state: izleft hours = 37.3469444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 8.100000E+01 NSTEP= 40587 Hash code: 50214259 ->PRGCHK: bdy curvature ratio at t= 8.2000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 81.000000 ; TG2= 82.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9150E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 81.000000 TO TG2= 82.000000 @ NSTEP 40587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.78390E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.27670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.21324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.27670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.27752E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.78390E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.27670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.21324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.27670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.27752E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 3.613E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56222599998000 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.74187860581212 q( 3 )= 5.84558912627811 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9581E+00 8.4403E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 4.46829617458276 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11948089915364 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12746 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.37556144146223 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.53181067761092 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.06381275476574 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.58409620618609 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.05742433409378 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.59444611921389 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.04586382473451 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.60422234428792 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.03726234510543 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.61941481602732 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02979487699511 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.63541633140454 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.02446582824751 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.65198055108846 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01988098648303 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.66670813201885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01615850881628 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.68146495988527 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01307728404698 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.69547010095954 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.01038392093756 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.70957365802707 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00790662874472 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.72151532085126 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00559661724605 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.73230947268798 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00351144543963 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.74218846435682 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00179369393843 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.75077361741521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.00481069315212 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fp_imp warning: RF renorm adjust = 2.00040245356076 at nshe,nfasti = 6 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.75726117804882 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.01311194046501 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.76289489659862 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02072839648481 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.76805705424242 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.02685166914308 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.77270243951318 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03252746810638 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.77693281593062 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.03777867718629 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.78096751341632 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04272191825944 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.78463916563096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.04731510119946 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.78814334240491 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05165191094870 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.79046367358042 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05581015264021 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.79355477312923 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.05956465885969 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.79644021233574 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06307516652892 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.79914847298331 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06637277222721 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.80166515222505 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.06946048680023 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.80403048485654 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07235861247596 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.80627183110665 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07507394236702 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.80845018484763 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.07766039319569 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81047602496893 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08007624074928 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81233096784410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08231658758203 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81410414605686 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08442998248070 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81577102027767 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08642587443746 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81735291339362 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.08829682476537 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.81881383195895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09004383790513 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82018180864700 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09168639481525 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82145123186976 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09322222670837 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82264483041080 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09466993990088 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82375384237988 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09603467031477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82477810116769 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09731027359756 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82572585480057 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09850689001634 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82659416732040 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.09963204641952 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82741080180878 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10069125107752 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82816755184651 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10169058493289 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82889226257658 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10263656202457 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.82956067477816 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10353098286303 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83016177466121 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10436378541260 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83070247016302 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10514672753675 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83119561226044 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10587306392123 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83164874617938 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10656282494825 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83205008677729 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10720616784116 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83240129399704 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10780446539469 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83271844565400 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10836661882686 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83298031990227 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10888454327892 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83325023788521 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10938729848736 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83347033789895 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.10985071334623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83368762931571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11030003893744 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83385775510573 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11070848684907 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83401726321770 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11110324181499 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83415728399436 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11147418672990 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83427020962930 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11182022875173 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83435618851408 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11214124735830 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83441272482218 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11243975874275 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83447774989989 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11273230429856 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83451935170398 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11300161789122 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83454995781744 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11325403889069 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83457000522157 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11349660365577 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83457518916677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11372118188489 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83458781804197 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11394226176399 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83459568628668 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11414843106113 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83458028541464 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11433966303778 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83456800554671 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11452460727577 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83454830681343 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11469881120483 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83452715284774 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11486739994101 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83449913910634 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11502614497660 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83445391457470 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11517438028839 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83442170310852 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11531817828139 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83437311375081 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11544836433712 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83432845889240 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11557648037811 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83430088180944 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11570595070151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83425306196782 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11582388775658 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83420793169296 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11593436335392 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83415666937430 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11604206469054 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83408982706309 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11613321268831 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83403435462501 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11622852637546 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83398379821272 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11632303536531 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83392046467011 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11640416245024 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83386106596975 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11648749438974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83380751381362 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11656554533692 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83374039225375 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11663856682445 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83368736296349 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11671173322235 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83363574299397 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11678336811174 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83358039676139 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11684904668329 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83350383384078 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11689751991943 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83345223626064 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11696160105423 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83338240620932 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11701023060193 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83332570833928 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11706283430771 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83326709668193 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11711433824144 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83321116136236 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11716210966414 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83317112629711 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11721731565874 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83311053627513 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11725622793279 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83306294359472 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11730246180974 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83300740616548 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11733809143494 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83295683455618 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11737755493179 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83290631911178 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11741494666248 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83286896486405 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11745851136649 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83281809377935 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11748841398059 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83276444397465 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11751628759411 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83274948982636 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11755961300977 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83271790790984 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11759573174728 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83266453684567 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11761597362117 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83262028303023 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11764417047719 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83258764362345 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11767264160379 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83255848612982 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11770399976832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83252016334079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11772599476636 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83246845771468 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11774362339559 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83244032628681 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11777069909286 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83239893608424 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11778585315795 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83236720219087 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11780768972264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83233825058073 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11782946839284 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83229413450096 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11784010409867 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83226349572837 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11785758225419 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83223201783019 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11787428337178 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83220349225882 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11788992936787 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83218321905371 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11791202839785 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83215548443739 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11792475192340 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83212655120577 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11793783379548 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83209383961776 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11794827107843 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83207691400662 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11796658979327 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83204899673330 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11797527003330 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83203066424511 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11799186980966 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83200094440377 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11799664856011 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83198417609537 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11801195312276 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83196828367805 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11802526333979 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83194086903571 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11803066855778 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83192080088778 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11804189782596 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83190263240543 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11805312787020 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83188870741564 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11806335624866 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83187191772649 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11807343310292 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83185564300745 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11808213930258 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83183925037997 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11809033413142 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83182169970998 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11809700837927 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83180513834156 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11810354476513 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83179187586943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11810958986534 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83177604135752 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11811515684758 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83175881330876 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11812012822964 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83175741748841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11813474005403 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83174116696901 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11813881406136 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83172573780632 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11814274611544 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83170932889883 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11814436905169 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83170678667071 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11815643585247 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83168910801847 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11815887913402 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83168682555943 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11817013511832 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83167384992471 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11817166359838 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83165792940707 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11817227941856 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83165599548753 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11818176404487 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83164023032442 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11818137889471 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83163564771359 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11818965021676 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83162382487608 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11818940170465 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83161987539741 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11819740728444 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83160590621241 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11819550466698 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83160238712222 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11820307087183 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83160138792698 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11821031716027 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83158719585912 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11820796935726 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83158676341133 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11821494195003 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83157305454563 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11821234209903 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83157102501332 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11821855658742 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83156994437677 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11822436377314 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83155660544410 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11822067594017 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83155617584001 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11822728439823 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83155540426546 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11823270379169 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83154292220354 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11822901065591 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83154048605366 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11823417220109 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83153969874770 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11823857365301 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83153859834218 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11824282043367 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83152479902889 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11823800833327 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83152375798153 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11824228476018 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83152352341603 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11824617195237 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83152344806413 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11824988401675 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83152271820166 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825402782054 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83150821188841 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11824765228239 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83150684633751 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825145273813 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83150442784646 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825443623163 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83150515445074 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825761263754 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83150568313959 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826070737995 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83149169967079 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825445584652 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148943685432 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825759059359 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148811852315 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11825975194133 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148715186630 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826273986745 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148570475695 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826484820824 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148578988415 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826725892774 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148399164544 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826918080339 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83148358108263 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11827128489448 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83147003074098 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826411479747 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83146894794275 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826622850061 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.483E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.443E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 3.83146880010388 at nshe,nfasti = 1 5 %fp_imp warning: RF renorm adjust = 2.11826804024215 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 41087 TA= 8.20000E+01 CPU TIME= 7.85786E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 44.6216275000001 %check_save_state: izleft hours = 35.2991666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 8.200000E+01 NSTEP= 41087 Hash code: 65283347 ->PRGCHK: bdy curvature ratio at t= 8.3000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 82.000000 ; TG2= 83.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9160E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 82.000000 TO TG2= 83.000000 @ NSTEP 41087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.72192E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.26753E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.32344E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.26753E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.72192E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.26753E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.32344E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.26753E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.29589E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.66219800000545 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.73647509087870 q( 3 )= 5.84667242779900 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9609E+00 8.4406E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.94785468354623 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12746 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39284503432395 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.38636967467238 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.38820915859372 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39123657940056 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39365506437846 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39416482058336 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39539477771953 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39723429650022 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.39825677115066 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40013054897466 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40226259892838 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40433967859470 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40632240000790 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40837533487668 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41025268331655 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41263103742920 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41495930214261 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41725756908893 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41930734283903 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42122457362256 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42304492122056 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42465827253243 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42616347350930 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42758401446477 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42886888855554 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43000050143739 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43107401700925 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43196363228690 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43267357638780 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43333726126587 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43385303381374 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43428581876996 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43461379108290 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43483145741700 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43499509733370 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43507397911831 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43506391364768 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43495869057804 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43480710366229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43461178311454 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43436710423551 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43408724874330 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43377094775989 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43340645138382 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43299052502993 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43256965030592 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43213563903347 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43166134882667 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43121502818431 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43072488925010 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.43021047037849 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42971077801158 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42918690323484 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42864250121265 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42813260231239 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42761118249941 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42710979737363 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42658505031898 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42605919544551 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42555373950688 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42506643501264 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42456067933335 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42406958123143 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42357918154710 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42310950292633 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42263523132109 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42217771838197 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42173621452638 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42127512680662 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42083149400902 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42041647264647 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.42000577450679 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41960176902466 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41920994320692 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41883034669820 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41845039033230 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41806685780391 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41772027916168 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41737220685515 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41703897924304 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41672359376718 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41642183469416 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41611435611978 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41581754287192 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41553840439356 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41527648794286 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41501430412219 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41475794008483 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41451968433180 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41427594422675 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41405457446877 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41383094870323 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41361628611062 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41342079477225 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41322027504621 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41302819764445 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41283713270185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41266664393195 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41249101693170 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41231953169971 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41217145754387 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41201031564540 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41186315817703 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41172661504868 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41158204282087 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41144531420184 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41131500593047 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41119367600342 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41108171396985 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41096924070990 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41085949188151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41074996575404 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41064374900885 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41054445439300 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41045463362538 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41035938702119 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41026381128908 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41018289008266 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41009865122562 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.41002699995950 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40993732397085 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40986702277856 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40980661516293 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40973338514655 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40967173768610 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40961108955343 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40954818933683 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40949543677340 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40945089759433 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40939884596555 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40934440521997 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40929351084147 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40925153060990 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40921111339689 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40915926116900 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40912669739510 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40908583396137 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40904360983947 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40901150952333 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40897098982143 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40893731308181 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40890876748777 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40887939460672 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40884707918407 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40882820395770 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40879456033206 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40876067829565 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40873926477416 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40871889060563 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40869672883319 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40866480890617 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40864402161019 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40862293651783 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40861370300433 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40859342694229 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40856859485838 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40854753350273 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40853717842019 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40852317664410 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40850245820282 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40849269401624 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40847081638080 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40846081169987 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40844969379539 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40843972488015 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40842982381140 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40840795979432 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40839677280224 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40838685523151 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40837502488185 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40837686260755 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40836603939591 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40835516206011 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40834390509197 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40833351660504 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40832257160308 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40832381314659 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40831277667343 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40830204760153 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40830247259499 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40829259587911 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40829269314708 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40828216348500 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40827176113551 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40827108040666 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40825972012866 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40826083460176 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40826144940321 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40825029165741 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40825013522138 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40823949368741 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40823931168200 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40823971597882 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40822863309570 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40822844826331 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40822928003078 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40821742166976 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40821755924918 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.580E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.160E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.40821837068643 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 41587 TA= 8.30000E+01 CPU TIME= 7.74514E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 46.6880094444446 %check_save_state: izleft hours = 33.2327777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.818E+03 MB. --> plasma_hash("gframe"): TA= 8.300000E+01 NSTEP= 41587 Hash code: 66534886 ->PRGCHK: bdy curvature ratio at t= 8.4000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 83.000000 ; TG2= 84.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8840E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 83.000000 TO TG2= 84.000000 @ NSTEP 41587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.63008E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.39501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.26834E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.39501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.63008E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.39501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.26834E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.39501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57032200001413 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.72926146986822 q( 3 )= 5.84429672009631 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9634E+00 8.4409E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.14541828786513 at nshe,nfasti = 1 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12748 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.22957820030726 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.26538658609012 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.27613734491384 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.27932434427109 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.28113622114207 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.28289375414433 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.28517444221750 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.28761085951557 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.29004993441924 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.29284736235663 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.29571039263649 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.29874590816081 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.30174535068453 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.30471598374698 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.30763554429413 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.31029354986847 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.31298271632142 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.31553261332748 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.31795700704525 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.32027182113026 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.32243989466420 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.21254568726053 at nshe,nfasti = 1 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18861991681730 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17971416189771 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17569535664120 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17358195425199 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17243090535700 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17178284713642 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17144216521195 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17126121075830 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17119695711823 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17117947332848 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17120504363506 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17122325808258 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17124571096342 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17125363834010 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17123259380270 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17121035811868 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17115633212170 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17106976728451 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17097301993496 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17083011866749 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17070021993970 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17053907715095 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17035309818086 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17015914280862 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16997287785417 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16974097177878 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16949995689926 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16925870672014 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16901451946496 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16875444640809 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16847784473586 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16820652701943 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16793019626949 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16765215438101 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16737952335183 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16709726827571 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16683205743711 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16655194566179 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16627303730302 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16600028269857 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16574315932984 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16547601662825 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16521315259263 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16495907302811 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16470270105688 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16446059051983 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16421847584472 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16397626496802 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16374481751115 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16352044587007 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16329992606912 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16309134241970 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16288069090826 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16267286521211 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16246318022656 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16227732046768 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16209318976485 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16191394154461 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16173568310403 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16156341420564 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16139548999199 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16123529612674 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16107904816044 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16092972686980 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16077861947687 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16064158578113 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16049988121653 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16036262450733 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16024061790410 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16012102616688 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16000494260189 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15988019762689 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15977542424414 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15966487454877 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15956658688240 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15946550380272 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15936944594484 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15927425876597 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15918650880835 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15910715495911 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15901665822805 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15894370976970 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15886043079791 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15878327428170 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15871928177364 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15865435013062 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15858775909059 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15852823117576 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15846778505849 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15840799340420 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15835820819142 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15829252428222 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15823709522669 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15819039990331 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15814554265316 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15809795673351 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15805341906065 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15800700871694 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15797002167985 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15793290501910 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15789532478186 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15785628845402 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15782713138179 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15778663266829 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15775552740064 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15772550347987 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15770567434417 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15767426111918 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15764100386380 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15762039211067 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15759906932413 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15757605205824 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15755138107906 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15752804031007 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15750551498488 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15749072211560 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15746676994538 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15745230481834 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15742682071001 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15741393627227 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15739732026227 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15738179665082 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15736566957696 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15735049740652 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15734636613704 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15732978037724 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15731365240278 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15730846196144 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15729066206095 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15728385400404 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15726651254444 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15725968750277 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15725193333545 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15723553190972 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15722825720327 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15722037326104 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15721313918312 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15720569043120 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15719682779531 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15718947090734 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15718174740871 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15717301325543 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15717645001569 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15716705249346 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15715810999686 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15715189460399 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15715366680920 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15714417412673 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15713566799014 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15713808636385 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15712877075053 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15713083941605 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15712097262930 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15711187011441 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15711348806209 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15710428182780 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15710482131271 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15710707038831 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15709807167779 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15710050644346 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15708939210512 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15709164747988 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15709113746122 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15708155429400 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15708368772795 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15708348638616 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15707366500700 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15707435416339 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15707561197671 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15707549779211 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15706650057085 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15706690073311 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15706652742948 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15706786990345 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15705750163811 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15705803972113 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.678E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.259E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15705915066356 at nshe,nfasti = 1 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 42087 TA= 8.40000E+01 CPU TIME= 8.22132E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 48.7623883333334 %check_save_state: izleft hours = 31.1583333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.212E+03 MB. --> plasma_hash("gframe"): TA= 8.400000E+01 NSTEP= 42087 Hash code: 91392415 ->PRGCHK: bdy curvature ratio at t= 8.5000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 84.000000 ; TG2= 85.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6710E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 84.000000 TO TG2= 85.000000 @ NSTEP 42087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.51758E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.48265E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.36017E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.48265E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.31425E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.51758E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.48265E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.36017E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.48265E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.31425E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56477699999232 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.72699181098116 q( 3 )= 5.84715967248535 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9659E+00 8.4413E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 536.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 536.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 536.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12750 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.08975245932557 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.04125727187474 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.05735558979620 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.06707868244216 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07658860077547 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.08605068013692 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.09552889255049 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.10492451972637 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.11419635146939 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.12334569582749 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.13225724922424 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.14093886751513 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.14929583889848 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.15727179386595 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.16488964862087 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17184894482387 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.17813508790617 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18405339165820 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.18958768298663 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.19479686757789 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.19963835045838 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.20416303167620 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.20839420570524 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.21229207414217 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.21589993692590 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.21923318848233 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.22227811354830 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.22508308512337 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.22767176446345 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23008125311013 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23226337895947 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23428157185315 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23607852284789 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23770610012141 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23914746515069 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24045803600125 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24162608168181 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24266768611012 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24359265066478 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24437434203549 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24507518357343 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24568328924201 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24621274695346 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24661652400251 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24697396913207 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24721365742306 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24739378342861 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24748043198949 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24750238459432 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24751830456048 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24750339368334 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24747024937387 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24739551401532 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24726586592043 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24711254208162 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24688869768947 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24664780751019 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24641471308962 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24616199889789 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24589017126017 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24551919210432 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24515405541182 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24486104604219 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24456656383504 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24423952616471 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24393519231266 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24361754110263 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24328038379650 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24295690299867 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24262535688969 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24229733149733 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24199698626615 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24168579437632 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24139061745342 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24110812937084 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24086717165293 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24066107207550 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24042431724057 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.24016555336490 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23989569706586 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23966541684340 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23942878766867 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23920969154882 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23900204424692 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23880944088580 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23861035872787 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23842695546632 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23825479494675 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23808258991518 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23794803776096 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23778669163417 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23763704280577 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23750474035516 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23738587625113 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23726166719873 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23715595525580 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23704356134493 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23696371580538 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23685074413526 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23676536354636 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23667500168127 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23658386723287 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23648826431317 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23640868576938 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23633943741777 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23626708020671 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23619087045956 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23611441923726 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23605238404552 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23598769629918 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23592079164647 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23587038741352 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23581656204576 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23576035112046 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23570567034568 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23566431445140 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23560262873782 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23555885136092 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23552945950690 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23548111720027 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23544770901282 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23539608612249 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23536115304846 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23532146447078 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23530239735975 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23526174293546 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23523848868414 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23521396671455 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23518791023978 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23516178855324 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23513330594541 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23510468321019 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23507582118317 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23506225141057 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23504734393343 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23501457631075 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23500058609232 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23498368019155 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23496597963912 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23494825148669 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23492925599814 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23491067394124 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23490903270074 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23488907581827 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23486872196238 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23486364594964 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23484341020386 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23483740992716 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23483284437887 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23480954943101 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23480356862058 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23479616440886 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23478806758389 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23477984164217 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23477196576813 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23476400589795 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23475407460479 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23474592055536 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23473551009419 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23472521902041 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23473301750833 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23472128616996 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23471052050623 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23469861381438 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23470480828736 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23469760640314 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23470391132484 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23469160320610 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23467964987334 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23468312454313 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23466820314075 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23467242670610 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23465997886985 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23466347052716 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23466701006214 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23465333610638 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23465692177220 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23464339580852 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23464751510146 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23464959585849 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23463572421099 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23463850436580 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23464116608548 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23464254849208 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23462814713729 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23463099220087 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23463389392104 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461854446810 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23462052255654 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23462296162168 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23462386934720 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23462511782371 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461046673929 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461273743997 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461350814271 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461536658756 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461656687111 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461681259302 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.775E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.523E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.23461814864788 at nshe,nfasti = 1 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 1.999986125156283E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 42587 TA= 8.50000E+01 CPU TIME= 8.00515E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 50.8043430555556 %check_save_state: izleft hours = 29.1163888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.823E+03 MB. --> plasma_hash("gframe"): TA= 8.500000E+01 NSTEP= 42587 Hash code: 114402152 ->PRGCHK: bdy curvature ratio at t= 8.6000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 85.000000 ; TG2= 86.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0800E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 85.000000 TO TG2= 86.000000 @ NSTEP 42587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.60023E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.24536E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.24536E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.32344E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.60023E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.24536E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.24536E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.32344E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.872E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.952E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.70243900001515 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.74029165787218 q( 3 )= 5.85812462674825 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9685E+00 8.4416E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 537.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 537.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12750 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.872E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.952E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.872E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.952E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 43087 TA= 8.60000E+01 CPU TIME= 8.13155E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 52.0865833333333 %check_save_state: izleft hours = 27.8338888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.222E+03 MB. --> plasma_hash("gframe"): TA= 8.600000E+01 NSTEP= 43087 Hash code: 106973336 ->PRGCHK: bdy curvature ratio at t= 8.7000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 86.000000 ; TG2= 87.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0100E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 86.000000 TO TG2= 87.000000 @ NSTEP 43087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.49003E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.32347E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.21324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.32346E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.16732E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.49003E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.32347E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.21324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.32346E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.16732E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.79744200001005 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.75477212226099 q( 3 )= 5.87023361459804 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9711E+00 8.4420E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 537.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 537.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 574.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12750 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01529421804188 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02727542177877 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.03515473398281 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02688017255301 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.03395364199850 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02484689308993 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.03198478330026 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02309871142264 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.03048374707957 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02183997325249 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02923996046212 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02084708745202 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02836656903214 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02009274027841 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02784246981486 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01969841681397 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02735186836375 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01932108447098 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02709203254209 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01896727616586 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02684082426343 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01882860252443 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02671006473536 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01870047054004 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02658288858292 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01857833491299 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02646434910220 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01845930532630 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02645476778545 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01845406033950 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02634242053893 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01844259992320 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02633657338862 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01843979820551 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02633237156896 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01843661300942 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02633055145160 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01832814261195 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02632700206054 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01832734591787 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02632642725351 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01832751761524 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02632544820801 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01832564637769 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.02632388609965 at nshe,nfasti = 98 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -6.970E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.753E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 98 %fp_imp warning: RF renorm adjust = 2.01832428975219 at nshe,nfasti = 98 5 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 43587 TA= 8.70000E+01 CPU TIME= 8.03692E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 52.6951269444445 %check_save_state: izleft hours = 27.2255555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.224E+03 MB. --> plasma_hash("gframe"): TA= 8.700000E+01 NSTEP= 43587 Hash code: 66244434 ->PRGCHK: bdy curvature ratio at t= 8.8000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 87.000000 ; TG2= 88.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8670E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 87.000000 TO TG2= 88.000000 @ NSTEP 43587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.44126E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.36017E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.44126E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.44126E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.36017E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.44126E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.067E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.872E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.195E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.60797599999933 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.77770795443680 q( 3 )= 5.88696452329858 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9738E+00 8.4423E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 537.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 537.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 537.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12752 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.067E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.872E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.067E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.872E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 44087 TA= 8.80000E+01 CPU TIME= 8.58783E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 53.9680200000001 %check_save_state: izleft hours = 25.9527777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.228E+03 MB. --> plasma_hash("gframe"): TA= 8.800000E+01 NSTEP= 44087 Hash code: 83545064 ->PRGCHK: bdy curvature ratio at t= 8.9000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 88.000000 ; TG2= 89.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 88.000000 TO TG2= 89.000000 @ NSTEP 44087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.33850E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.39578E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.28670E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.39578E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.33850E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.39578E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.28670E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.39578E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.28670E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.1240239999897 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.87845645784359 q( 3 )= 5.54862870705164 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9774E+00 8.4427E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12752 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.165E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.794E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 44587 TA= 8.90000E+01 CPU TIME= 7.85607E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 54.5840272222223 %check_save_state: izleft hours = 25.3366666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 8.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.230E+03 MB. --> plasma_hash("gframe"): TA= 8.900000E+01 NSTEP= 44587 Hash code: 112523184 ->PRGCHK: bdy curvature ratio at t= 9.0000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 89.000000 ; TG2= 90.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9820E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 89.000000 TO TG2= 90.000000 @ NSTEP 44587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46707E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.04253E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.31191E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.31425E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.04251E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.31191E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.24997E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46707E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.04253E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.31191E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.31425E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.04251E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.31191E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.24997E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.262E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.050E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.418E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56057199998759 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.91601314664114 q( 3 )= 5.47218450392017 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9800E+00 8.4431E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12752 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.262E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.050E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.03058757435912 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.262E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.050E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.00277823689378 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.262E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.050E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45087 TA= 9.00000E+01 CPU TIME= 8.54007E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 55.8664802777779 %check_save_state: izleft hours = 24.0541666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.0000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.234E+03 MB. --> plasma_hash("gframe"): TA= 9.000000E+01 NSTEP= 45087 Hash code: 93257766 ->PRGCHK: bdy curvature ratio at t= 9.1000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 90.000000 ; TG2= 91.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9440E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 90.000000 TO TG2= 91.000000 @ NSTEP 45087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.28340E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.25135E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.37433E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.23160E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.25134E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.37433E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.26834E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.28340E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.25135E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.37433E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.23160E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.25134E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.37433E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.26834E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.99990100000286 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.93047042412565 q( 3 )= 5.51401023980681 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9829E+00 8.4435E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12752 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.771E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45587 TA= 9.10000E+01 CPU TIME= 7.76478E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 56.4791155555557 %check_save_state: izleft hours = 23.4416666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.1000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.236E+03 MB. --> plasma_hash("gframe"): TA= 9.100000E+01 NSTEP= 45587 Hash code: 34623954 ->PRGCHK: bdy curvature ratio at t= 9.2000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 91.000000 ; TG2= 92.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9710E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 91.000000 TO TG2= 92.000000 @ NSTEP 45587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.34769E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.72739E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.19600E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.30507E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.72737E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.19599E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.25915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.34769E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.72739E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.19600E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.30507E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.72737E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.19599E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.25915E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.923E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.650E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56133399999817 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.94596855191836 q( 3 )= 5.51449956052157 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9852E+00 8.4438E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.923E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 46087 TA= 9.20000E+01 CPU TIME= 7.86027E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 57.7599975000000 %check_save_state: izleft hours = 22.1605555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.2000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.240E+03 MB. --> plasma_hash("gframe"): TA= 9.200000E+01 NSTEP= 46087 Hash code: 25511104 ->PRGCHK: bdy curvature ratio at t= 9.3000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 92.000000 ; TG2= 93.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9840E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 92.000000 TO TG2= 93.000000 @ NSTEP 46087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.31095E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.22145E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.46583E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.14895E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.22144E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.46583E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.15813E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.31095E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.22145E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.46583E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.14895E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.22144E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.46583E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.15813E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.73103199998150 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.98330025817774 q( 3 )= 5.45479081566091 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9883E+00 8.4442E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.328327542598678 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06854031359826 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.330635667105861 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06655577393085 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.332303704781380 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06514874842373 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.333164170122361 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06479415606797 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.333688090937504 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06466425970448 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334016514712152 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06452193457576 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334214605853173 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06447701801909 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334336894627603 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06442896323285 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334410306066083 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06440515728979 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334454608842054 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06438802490359 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334481515354158 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06436828179527 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334498198396798 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06435029901730 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334507334528500 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06434345125228 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334513346870873 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06432462159359 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334516735263677 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06431253465323 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334518809990004 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06430046370691 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519757003284 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06429544194174 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520366064305 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06427981498468 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520492078336 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06427734391974 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520342738362 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06426816236467 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520386224761 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06426509815155 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520604960082 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06425647470852 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520386989717 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06425659625173 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520551319738 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06425051246935 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520353648619 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06425110692601 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520178074325 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06424221939211 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334520202895180 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06424796745610 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519904533070 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06424288489357 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519782775285 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06424340482666 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519824933979 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423979433776 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519573426146 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06424349462366 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519790256591 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423840899057 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519743152410 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423925535684 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519833736811 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423714712801 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519744040713 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423772834064 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519902284487 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423440417906 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519708311774 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423783201349 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519722067574 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423687814570 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519764304883 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423616654436 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519787924816 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423514738282 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519539649958 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423927016026 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519841129614 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423430455506 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519534072958 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423860334518 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519797734450 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423344065460 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519546468677 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423831971534 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519813009692 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423321867988 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.832E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 0.334519571990828 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.06423791169420 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 46587 TA= 9.30000E+01 CPU TIME= 7.64963E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 58.3652661111112 %check_save_state: izleft hours = 21.5552777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.3000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.242E+03 MB. --> plasma_hash("gframe"): TA= 9.300000E+01 NSTEP= 46587 Hash code: 15942294 ->PRGCHK: bdy curvature ratio at t= 9.4000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 93.000000 ; TG2= 94.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9710E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 93.000000 TO TG2= 94.000000 @ NSTEP 46587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.39360E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.09090E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.23040E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.09089E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.23040E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.39360E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.09090E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.23040E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.09089E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.23040E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.33262E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.149E-07 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ti He3_rfmi toric input data is 4.898E-03 -- reset to 5.000E-03 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0632310000074 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.99025398800062 q( 3 )= 5.46124764232473 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9910E+00 8.4446E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 538.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 538.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 538.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 %fp_imp warning: RF renorm adjust = 2.03159594854840 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.149E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.149E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 1.999986125156283E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 47087 TA= 9.40000E+01 CPU TIME= 8.60874E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 59.6452366666667 %check_save_state: izleft hours = 20.2755555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.4000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.246E+03 MB. --> plasma_hash("gframe"): TA= 9.400000E+01 NSTEP= 47087 Hash code: 48781506 ->PRGCHK: bdy curvature ratio at t= 9.5000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 94.000000 ; TG2= 95.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0750E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 94.000000 TO TG2= 95.000000 @ NSTEP 47087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.13286E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.45384E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.13058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.13285E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.45384E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.11222E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.13286E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.45384E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.13058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.13285E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.45384E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.11222E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.98649000001024 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.00706650065903 q( 3 )= 5.46417533593217 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9945E+00 8.4450E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.550E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 47587 TA= 9.50000E+01 CPU TIME= 8.02788E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 60.2551847222222 %check_save_state: izleft hours = 19.6655555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.5000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.248E+03 MB. --> plasma_hash("gframe"): TA= 9.500000E+01 NSTEP= 47587 Hash code: 110028186 ->PRGCHK: bdy curvature ratio at t= 9.6000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 95.000000 ; TG2= 96.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9540E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 95.000000 TO TG2= 96.000000 @ NSTEP 47587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.35917E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.65572E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.25200E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.65571E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.25199E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.30507E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.35917E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.65572E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.25200E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.65571E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.25199E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.30507E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.604E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.65282999997726 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.98313190769153 q( 3 )= 5.55813512040212 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9970E+00 8.4454E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.604E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.04315436984193 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.604E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.00166793802962 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.604E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 48087 TA= 9.60000E+01 CPU TIME= 7.91780E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 61.5233716666667 %check_save_state: izleft hours = 18.3972222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.6000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.251E+03 MB. --> plasma_hash("gframe"): TA= 9.600000E+01 NSTEP= 48087 Hash code: 114860788 ->PRGCHK: bdy curvature ratio at t= 9.7000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 96.000000 ; TG2= 97.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0370E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 96.000000 TO TG2= 97.000000 @ NSTEP 48087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.31554E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.92026E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.51143E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24997E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.92025E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.51143E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.23160E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.31554E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.92026E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.51143E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24997E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.92025E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.51143E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.23160E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.77873799999361 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.99411959900210 q( 3 )= 5.49110326902330 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0006E+00 8.4458E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.211E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 48587 TA= 9.70000E+01 CPU TIME= 8.18250E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 62.1320933333334 %check_save_state: izleft hours = 17.7886111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.7000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.253E+03 MB. --> plasma_hash("gframe"): TA= 9.700000E+01 NSTEP= 48587 Hash code: 46681673 ->PRGCHK: bdy curvature ratio at t= 9.8000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 97.000000 ; TG2= 98.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0260E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 97.000000 TO TG2= 98.000000 @ NSTEP 48587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.37524E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.91839E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.26223E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.91837E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.26223E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.27752E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.37524E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.91839E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.26223E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.91837E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.26223E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.27752E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.574E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0196519999881 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.98780141663702 q( 3 )= 5.39312546279829 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0034E+00 8.4462E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %fp_imp warning: RF renorm adjust = 2.02000673305169 at nshe,nfasti = 6 5 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12754 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.574E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.574E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.00116357140355 at nshe,nfasti = 1 5 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.574E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.574E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000015228986740E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 49087 TA= 9.80000E+01 CPU TIME= 8.64550E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 63.4167252777778 %check_save_state: izleft hours = 16.5038888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.8000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.257E+03 MB. --> plasma_hash("gframe"): TA= 9.800000E+01 NSTEP= 49087 Hash code: 23236147 ->PRGCHK: bdy curvature ratio at t= 9.9000E+01 seconds is: 1.3172E-01 % MHDEQ: TG1= 98.000000 ; TG2= 99.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0480E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 98.000000 TO TG2= 99.000000 @ NSTEP 49087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.26503E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.01078E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.45020E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.01077E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.45020E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.19487E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.26503E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.01078E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.45020E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.01077E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.45020E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.19487E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0260899999994 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 3.01409026147328 q( 3 )= 5.13499909451891 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0077E+00 8.4466E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.0 cm.B= 4.1980E+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= 99 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.10129146610111 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.494715767371589 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.44827785994605 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.11390819374138 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.10457417746157 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492907201286887 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.34901683978784 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.08422112302023 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492264573999136 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.32365190127040 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.08016041863643 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492162701662165 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31826802465295 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07876559178480 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492118030259407 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31705569102112 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07808478710298 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492089378649109 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31677074656269 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07760497730024 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492067958916279 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31668783445103 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07723059714830 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492048579035811 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31668867439089 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07692459519055 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492034861183159 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31667520690239 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07665844337368 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492020179767698 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31670283454855 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07645604107824 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.492010503630172 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31669777070614 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07627394161958 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491999539672902 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31672752883132 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07613499201067 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491993322233571 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31673105390687 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07600689456766 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491985299394301 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31676030392068 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07591071118356 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491981166162671 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31675235376579 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07581428614274 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491974605060116 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31678189003913 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07574941676201 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491971952799638 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31678045087675 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07567463715593 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491966599447100 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31680636831740 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07563218272196 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491965102696739 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31680150680870 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07556802903087 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491960895100535 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31682469571628 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07553689388570 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491960058281096 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31681654731572 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07549356247377 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491956926329732 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31683667953768 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07548344832439 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491956648285288 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31682795874586 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07544049980951 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491953638977947 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31684651150885 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07544021852061 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491953825286612 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31683746166251 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07540891795985 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491951638134064 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685659064815 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07540807911557 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491952100985556 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31684191544695 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07537683654607 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491949981307120 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686114409058 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07538603263859 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491950892973256 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31684691231872 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07536482293019 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491948972151464 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686182504756 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07536602852098 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491950215731923 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685021929637 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07535411276734 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491948304372050 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686490124843 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07535450490793 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491949559454238 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685357283052 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07534353346352 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947694348405 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686824688938 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07534417964605 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491949060451368 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685456177811 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533406115065 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947208026022 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686832500763 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07534357279755 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491948560601101 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685490893408 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07532345471979 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946719583069 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686788035003 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533327419959 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491948081877995 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685527680754 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07532171454805 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946589571533 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31687075512473 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533407747039 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947992646496 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685710383623 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07532253619011 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946629821002 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686984256085 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533335647539 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947948838227 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685808364363 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07532244434329 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946582845998 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31687095877877 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533331026978 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947882801055 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685946469300 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07531227177342 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946611435812 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686983403246 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07533317007986 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947853825166 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685993059488 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07531222630549 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491946223638596 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31686880522755 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.551E-07 -- reset to 1.000E+04 lun for writing 00425I19_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A1_12_torica.inp lun for writing 00425I19_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 32 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 00425I19_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A1_12_torica.inp Running 3D decomposition solver pcblock is 4 %toric4_fpdrive: starting TORIC4/5, messages to: 00425I19_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 00425I19_A2_12_torica.inp Running 3D decomposition solver pcblock is 4 %fp_imp warning: RF renorm adjust = 2.07532400966791 at nshe,nfasti = 99 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 99 %fp_imp warning: RF renorm adjust = 0.491947946821824 at nshe,nfasti = 100 5 %fp_imp warning: RF renorm adjust = 2.31685799928628 at nshe,nfasti = 100 5 %fp_imp warning: max cumulative adjustment reached: 10.0000000000000 at nshe= 100 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 49587 TA= 9.90000E+01 CPU TIME= 8.57885E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 64.0335155555556 %check_save_state: izleft hours = 15.8872222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 9.9000000E+01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.259E+03 MB. --> plasma_hash("gframe"): TA= 9.900000E+01 NSTEP= 49587 Hash code: 94741415 ->PRGCHK: bdy curvature ratio at t= 1.0000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 99.000000 ; TG2= 100.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1620E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 99.000000 TO TG2= 100.000000 @ NSTEP 49587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46478E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.00503E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.25415E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.00501E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.25415E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.46478E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.00503E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.25415E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.00501E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.25415E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.33262E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.735E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.59254900002270 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.98788860357756 q( 3 )= 5.08013101717638 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0104E+00 8.4470E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50087 TA= 1.00000E+02 CPU TIME= 8.55934E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 65.3800302777779 %check_save_state: izleft hours = 14.5405555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.262E+03 MB. --> plasma_hash("gframe"): TA= 1.000000E+02 NSTEP= 50087 Hash code: 25114137 ->PRGCHK: bdy curvature ratio at t= 1.0100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 100.000000 ; TG2= 101.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9720E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 100.000000 TO TG2= 101.000000 @ NSTEP 50087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50143 TA= 1.00112E+02 CPU TIME= 7.89916E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50259 TA= 1.00344E+02 CPU TIME= 7.77845E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 2.02956E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.75468E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.50562E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.93773E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.75468E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.50562E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.91018E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50552 TA= 1.00930E+02 CPU TIME= 7.83041E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.26963E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.50998E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.29531E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.47037E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.50998E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.29531E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.49793E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.054E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.46457500001998 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. %fp_profil: warning on q profile large inward increase detected. q( 4 )= 2.99415994376494 q( 3 )= 4.86147369141894 fixup applied. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0138E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50587 TA= 1.01000E+02 CPU TIME= 8.40592E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 65.8241597222223 %check_save_state: izleft hours = 14.0963888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.262E+03 MB. --> plasma_hash("gframe"): TA= 1.010000E+02 NSTEP= 50587 Hash code: 70096338 ->PRGCHK: bdy curvature ratio at t= 1.0200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 101.000000 ; TG2= 102.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0270E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 101.000000 TO TG2= 102.000000 @ NSTEP 50587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50776 TA= 1.01378E+02 CPU TIME= 8.25497E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50798 TA= 1.01422E+02 CPU TIME= 8.28887E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50823 TA= 1.01472E+02 CPU TIME= 8.25896E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 90= 1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.77238E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.54083E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.66323E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.77237E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.54083E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.44282E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50861 TA= 1.01548E+02 CPU TIME= 8.25289E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50920 TA= 1.01666E+02 CPU TIME= 8.27964E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51006 TA= 1.01838E+02 CPU TIME= 8.28145E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.85049E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.76910E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.45368E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 90= 1.20764E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.76909E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.45367E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 90= 1.17549E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.041E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.96840799998608 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0221E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51087 TA= 1.02000E+02 CPU TIME= 8.39590E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.0636719444445 %check_save_state: izleft hours = 13.8569444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.252E+03 MB. --> plasma_hash("gframe"): TA= 1.020000E+02 NSTEP= 51087 Hash code: 57189124 ->PRGCHK: bdy curvature ratio at t= 1.0300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 102.000000 ; TG2= 103.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1310E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 102.000000 TO TG2= 103.000000 @ NSTEP 51087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51223 TA= 1.02272E+02 CPU TIME= 7.93758E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.95380E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.24316E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.48374E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 2.32344E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.24315E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.48374E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 2.30507E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51460 TA= 1.02746E+02 CPU TIME= 7.69712E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.67141E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.21097E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.40902E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.91018E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.21096E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.40902E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.93773E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.946E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.53597500000615 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0250E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51587 TA= 1.03000E+02 CPU TIME= 7.90259E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.2348100000000 %check_save_state: izleft hours = 13.6858333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.030000E+02 NSTEP= 51587 Hash code: 108604605 ->PRGCHK: bdy curvature ratio at t= 1.0400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 103.000000 ; TG2= 104.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9530E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 103.000000 TO TG2= 104.000000 @ NSTEP 51587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.50711E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.75496E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25815E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.75494E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.20574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.24896E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51900 TA= 1.03626E+02 CPU TIME= 7.69758E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.02038E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.24305E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 90= 1.34998E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.24305E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 90= 1.24896E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.46633799999836 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0172E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52087 TA= 1.04000E+02 CPU TIME= 7.87411E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.4052613888889 %check_save_state: izleft hours = 13.5155555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.040000E+02 NSTEP= 52087 Hash code: 52984130 ->PRGCHK: bdy curvature ratio at t= 1.0500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 104.000000 ; TG2= 105.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0770E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 104.000000 TO TG2= 105.000000 @ NSTEP 52087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.68619E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.41278E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.41278E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.35917E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52532 TA= 1.04890E+02 CPU TIME= 8.30883E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 1.66222E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.33774E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= 1.76324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.33774E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= 1.43263E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0393150000018 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0053E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52587 TA= 1.05000E+02 CPU TIME= 8.55960E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.5816300000000 %check_save_state: izleft hours = 13.3391666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.050000E+02 NSTEP= 52587 Hash code: 6968432 ->PRGCHK: bdy curvature ratio at t= 1.0600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 105.000000 ; TG2= 106.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9570E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 105.000000 TO TG2= 106.000000 @ NSTEP 52587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18468E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.38920E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.38920E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18468E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.38920E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.38920E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.39590E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.643E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0074730000051 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9927E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 53087 TA= 1.06000E+02 CPU TIME= 8.39396E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.7694663888889 %check_save_state: izleft hours = 13.1511111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.060000E+02 NSTEP= 53087 Hash code: 27797171 ->PRGCHK: bdy curvature ratio at t= 1.0700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 106.000000 ; TG2= 107.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.2000E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 106.000000 TO TG2= 107.000000 @ NSTEP 53087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.81935E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.25768E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.25768E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.40508E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.81935E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.25768E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.25768E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.40508E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.441E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.97344900001190 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9828E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 53587 TA= 1.07000E+02 CPU TIME= 8.59950E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 66.9687280555556 %check_save_state: izleft hours = 12.9519444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.070000E+02 NSTEP= 53587 Hash code: 28797058 ->PRGCHK: bdy curvature ratio at t= 1.0800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 107.000000 ; TG2= 108.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9850E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 107.000000 TO TG2= 108.000000 @ NSTEP 53587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.92955E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.36246E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.36246E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.47855E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.92955E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.36246E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.36246E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.47855E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.445E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.67214799998328 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9760E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 54087 TA= 1.08000E+02 CPU TIME= 7.77669E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 67.1756077777778 %check_save_state: izleft hours = 12.7450000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.080000E+02 NSTEP= 54087 Hash code: 60488218 ->PRGCHK: bdy curvature ratio at t= 1.0900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 108.000000 ; TG2= 109.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9560E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 108.000000 TO TG2= 109.000000 @ NSTEP 54087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18927E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.42861E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.51988E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.42861E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.52906E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18927E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.42861E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.51988E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.42861E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.52906E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.686E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.60289000000921 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9684E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 54587 TA= 1.09000E+02 CPU TIME= 8.19171E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 67.3900588888889 %check_save_state: izleft hours = 12.5305555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.090000E+02 NSTEP= 54587 Hash code: 24451039 ->PRGCHK: bdy curvature ratio at t= 1.1000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 109.000000 ; TG2= 110.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 109.000000 TO TG2= 110.000000 @ NSTEP 54587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.86527E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.44225E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.44224E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.41427E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55031 TA= 1.09888E+02 CPU TIME= 8.45217E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= -1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.44552E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.44552E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.52447E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.368E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0963660000125 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9620E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 1.999986125156283E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55087 TA= 1.10000E+02 CPU TIME= 8.50943E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 67.6055400000000 %check_save_state: izleft hours = 12.3150000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.100000E+02 NSTEP= 55087 Hash code: 27330788 ->PRGCHK: bdy curvature ratio at t= 1.1100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 110.000000 ; TG2= 111.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0020E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 110.000000 TO TG2= 111.000000 @ NSTEP 55087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.17779E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.44880E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.42345E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.44880E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.46478E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55501 TA= 1.10828E+02 CPU TIME= 8.05121E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 88= -1.37294E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.41553E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 2.29589E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.41553E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= -1.20764E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.007E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.82481799999368 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9569E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55587 TA= 1.11000E+02 CPU TIME= 8.18768E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 67.8357288888890 %check_save_state: izleft hours = 12.0850000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.110000E+02 NSTEP= 55587 Hash code: 108523801 ->PRGCHK: bdy curvature ratio at t= 1.1200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 111.000000 ; TG2= 112.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0030E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 111.000000 TO TG2= 112.000000 @ NSTEP 55587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.38907E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.40967E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.38906E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.43263E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55991 TA= 1.11808E+02 CPU TIME= 8.17941E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 2.01579E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.34336E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.52906E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.34335E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.53365E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.461E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.78634000002057 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9529E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000015228986740E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 56087 TA= 1.12000E+02 CPU TIME= 8.20233E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 68.0832177777778 %check_save_state: izleft hours = 11.8375000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.252E+03 MB. --> plasma_hash("gframe"): TA= 1.120000E+02 NSTEP= 56087 Hash code: 22129934 ->PRGCHK: bdy curvature ratio at t= 1.1300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 112.000000 ; TG2= 113.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0430E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 112.000000 TO TG2= 113.000000 @ NSTEP 56087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.81476E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.33012E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.43263E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.33011E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.38212E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 56451 TA= 1.12728E+02 CPU TIME= 8.17375E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 88= -1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.29908E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= 1.72651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.29907E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= 1.87344E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.761E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.76532700000098 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9502E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 56587 TA= 1.13000E+02 CPU TIME= 8.19343E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 68.3545661111112 %check_save_state: izleft hours = 11.5661111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.130000E+02 NSTEP= 56587 Hash code: 106542496 ->PRGCHK: bdy curvature ratio at t= 1.1400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 113.000000 ; TG2= 114.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9800E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 113.000000 TO TG2= 114.000000 @ NSTEP 56587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.63109E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.27501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30866E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.27501E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32243E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 56956 TA= 1.13738E+02 CPU TIME= 7.81866E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 1.25815E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.22353E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.22352E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.17549E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.137E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.53260999999475 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9480E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57087 TA= 1.14000E+02 CPU TIME= 7.71173E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 68.6753041666668 %check_save_state: izleft hours = 11.2452777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.252E+03 MB. --> plasma_hash("gframe"): TA= 1.140000E+02 NSTEP= 57087 Hash code: 120554090 ->PRGCHK: bdy curvature ratio at t= 1.1500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 114.000000 ; TG2= 115.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9120E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 114.000000 TO TG2= 115.000000 @ NSTEP 57087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.67700E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.20692E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.20692E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.33161E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57449 TA= 1.14724E+02 CPU TIME= 7.75689E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57485 TA= 1.14796E+02 CPU TIME= 7.68834E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57530 TA= 1.14886E+02 CPU TIME= 7.79031E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.35917E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.42371E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 90= 1.22600E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.42371E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 90= 1.21682E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.722E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.58632500001113 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9463E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57587 TA= 1.15000E+02 CPU TIME= 7.91446E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 68.9888733333333 %check_save_state: izleft hours = 10.9319444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.150000E+02 NSTEP= 57587 Hash code: 96208273 ->PRGCHK: bdy curvature ratio at t= 1.1600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 115.000000 ; TG2= 116.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9470E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 115.000000 TO TG2= 116.000000 @ NSTEP 57587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57662 TA= 1.15150E+02 CPU TIME= 7.80809E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 57773 TA= 1.15372E+02 CPU TIME= 7.70238E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= -1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.30175E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 98= 3.45301E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.30175E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 98= 3.41628E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58022 TA= 1.15870E+02 CPU TIME= 7.91472E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 2.47037E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.24963E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.24963E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.20304E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.033E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.56790999998339 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9552E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 539.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 539.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 539.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58087 TA= 1.16000E+02 CPU TIME= 8.40097E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 69.1848063888889 %check_save_state: izleft hours = 10.7358333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.160000E+02 NSTEP= 58087 Hash code: 47508185 ->PRGCHK: bdy curvature ratio at t= 1.1700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 116.000000 ; TG2= 117.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0030E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 116.000000 TO TG2= 117.000000 @ NSTEP 58087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58250 TA= 1.16326E+02 CPU TIME= 8.30074E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 1.80916E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.11246E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.33337E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.79079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.11246E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.33337E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.80916E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58466 TA= 1.16758E+02 CPU TIME= 8.41539E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= -1.70814E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.37281E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.33915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.14895E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.37280E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.33915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.16732E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.183E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0366339999891 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9732E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58587 TA= 1.17000E+02 CPU TIME= 8.37170E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 69.3637936111112 %check_save_state: izleft hours = 10.5569444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.170000E+02 NSTEP= 58587 Hash code: 112906127 ->PRGCHK: bdy curvature ratio at t= 1.1800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 117.000000 ; TG2= 118.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0240E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 117.000000 TO TG2= 118.000000 @ NSTEP 58587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58821 TA= 1.17468E+02 CPU TIME= 8.29718E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 96= -1.83671E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.32595E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 61= 1.51466E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.55303E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.32595E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 61= 1.51466E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.51629E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58872 TA= 1.17570E+02 CPU TIME= 8.57688E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58893 TA= 1.17612E+02 CPU TIME= 8.42212E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58927 TA= 1.17680E+02 CPU TIME= 8.58375E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58982 TA= 1.17790E+02 CPU TIME= 8.51965E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59062 TA= 1.17950E+02 CPU TIME= 8.59186E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.71503E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 3.20214E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.47370E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.31325E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 3.20214E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.47370E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.28570E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.444E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0289899999916 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9911E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.100001438520849E-005 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59087 TA= 1.18000E+02 CPU TIME= 9.68955E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 69.5593075000000 %check_save_state: izleft hours = 10.3613888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.180000E+02 NSTEP= 59087 Hash code: 92737829 ->PRGCHK: bdy curvature ratio at t= 1.1900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 118.000000 ; TG2= 119.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 118.000000 TO TG2= 119.000000 @ NSTEP 59087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59130 TA= 1.18086E+02 CPU TIME= 7.91597E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59154 TA= 1.18134E+02 CPU TIME= 7.81668E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59270 TA= 1.18366E+02 CPU TIME= 7.93215E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= -1.44641E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.10676E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.49271E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 1.55202E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.10676E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.49271E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 91= 1.54284E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59371 TA= 1.18568E+02 CPU TIME= 7.81214E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59524 TA= 1.18874E+02 CPU TIME= 7.71717E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 90= 1.71732E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 3.43322E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.20892E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -3.04894E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 3.43322E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.20892E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -3.11322E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.292E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57843899997533 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0005E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59587 TA= 1.19000E+02 CPU TIME= 7.92930E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 69.7475488888890 %check_save_state: izleft hours = 10.1730555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.190000E+02 NSTEP= 59587 Hash code: 89637339 ->PRGCHK: bdy curvature ratio at t= 1.2000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 119.000000 ; TG2= 120.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0030E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 119.000000 TO TG2= 120.000000 @ NSTEP 59587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59772 TA= 1.19370E+02 CPU TIME= 8.43594E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.19257E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.85613E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.45871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.69896E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.85612E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.45871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.71273E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60069 TA= 1.19964E+02 CPU TIME= 8.40287E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.32803E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.76381E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.47444E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.65304E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.76380E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.47444E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.18009E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.96136099999421 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0016E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60087 TA= 1.20000E+02 CPU TIME= 7.91770E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 69.9238619444446 %check_save_state: izleft hours = 9.99694444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.200000E+02 NSTEP= 60087 Hash code: 2316370 ->PRGCHK: bdy curvature ratio at t= 1.2100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 120.000000 ; TG2= 121.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 120.000000 TO TG2= 121.000000 @ NSTEP 60087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.30048E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.00630E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.19406E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 8.68786E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.77243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.00629E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.19405E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 8.68785E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.86426E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60551 TA= 1.20928E+02 CPU TIME= 7.68706E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 2.36936E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.26837E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.21273E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -2.08467E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.26836E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.21273E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 91= 1.21223E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.51648500000010 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9952E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60587 TA= 1.21000E+02 CPU TIME= 7.91859E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 70.1063361111112 %check_save_state: izleft hours = 9.81444444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.210000E+02 NSTEP= 60587 Hash code: 15729639 ->PRGCHK: bdy curvature ratio at t= 1.2200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 121.000000 ; TG2= 122.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1370E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 121.000000 TO TG2= 122.000000 @ NSTEP 60587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.56683E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.28934E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.89181E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.56683E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.28934E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.86885E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60888 TA= 1.21602E+02 CPU TIME= 7.91780E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.02471E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.29522E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.93874E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.02470E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.29522E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.99384E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.48845699999947 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9913E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 61087 TA= 1.22000E+02 CPU TIME= 7.90879E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 70.2825941666668 %check_save_state: izleft hours = 9.63805555555555 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.220000E+02 NSTEP= 61087 Hash code: 83866907 ->PRGCHK: bdy curvature ratio at t= 1.2300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 122.000000 ; TG2= 123.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1580E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 122.000000 TO TG2= 123.000000 @ NSTEP 61087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18009E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.93195E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.44144E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.93193E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.44144E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18009E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.93195E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.44144E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.93193E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.44144E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34539E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.50456499998108 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9816E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 61587 TA= 1.23000E+02 CPU TIME= 7.92528E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 70.4622163888889 %check_save_state: izleft hours = 9.45833333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.230000E+02 NSTEP= 61587 Hash code: 44574213 ->PRGCHK: bdy curvature ratio at t= 1.2400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 123.000000 ; TG2= 124.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 123.000000 TO TG2= 124.000000 @ NSTEP 61587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.63568E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.28470E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.28470E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.33161E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.63568E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.28470E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.28470E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.33161E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.409E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.55901900000754 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9735E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000015228986740E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 62087 TA= 1.24000E+02 CPU TIME= 7.82676E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 70.6487044444445 %check_save_state: izleft hours = 9.27194444444445 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.240000E+02 NSTEP= 62087 Hash code: 98605905 ->PRGCHK: bdy curvature ratio at t= 1.2500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 124.000000 ; TG2= 125.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0380E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 124.000000 TO TG2= 125.000000 @ NSTEP 62087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.65405E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.40919E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.40919E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.33161E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.65405E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.40919E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.40919E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.33161E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.061E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.62022099999012 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9671E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 62587 TA= 1.25000E+02 CPU TIME= 7.81058E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 70.8507388888890 %check_save_state: izleft hours = 9.07000000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.250000E+02 NSTEP= 62587 Hash code: 90560446 ->PRGCHK: bdy curvature ratio at t= 1.2600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 125.000000 ; TG2= 126.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1320E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 125.000000 TO TG2= 126.000000 @ NSTEP 62587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.78262E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.17788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.17788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.38672E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.78262E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.17788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.17788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.38672E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.543E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.80884499999229 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9625E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 63087 TA= 1.26000E+02 CPU TIME= 8.18231E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 71.0599297222223 %check_save_state: izleft hours = 8.86083333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.260000E+02 NSTEP= 63087 Hash code: 19126460 ->PRGCHK: bdy curvature ratio at t= 1.2700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 126.000000 ; TG2= 127.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9850E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 126.000000 TO TG2= 127.000000 @ NSTEP 63087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.74129E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.20610E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.20609E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.36376E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.74129E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.20610E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.20609E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.36376E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.881E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.84488600000623 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9587E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 63587 TA= 1.27000E+02 CPU TIME= 8.19206E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 71.2936258333334 %check_save_state: izleft hours = 8.62694444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.270000E+02 NSTEP= 63587 Hash code: 89349873 ->PRGCHK: bdy curvature ratio at t= 1.2800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 127.000000 ; TG2= 128.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0380E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 127.000000 TO TG2= 128.000000 @ NSTEP 63587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.66323E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.19499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.19499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.66323E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.19499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.19499E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.159E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.90552100000787 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9553E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64087 TA= 1.28000E+02 CPU TIME= 8.49395E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 71.5202830555556 %check_save_state: izleft hours = 8.40027777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.280000E+02 NSTEP= 64087 Hash code: 60992139 ->PRGCHK: bdy curvature ratio at t= 1.2900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 128.000000 ; TG2= 129.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0390E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 128.000000 TO TG2= 129.000000 @ NSTEP 64087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64027E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.46030E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.46030E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.29947E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64579 TA= 1.28984E+02 CPU TIME= 7.96235E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.33161E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.42100E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 90= 1.24896E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.42100E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 90= 1.19386E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.466E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0701699999918 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9526E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64587 TA= 1.29000E+02 CPU TIME= 8.43741E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 71.7825619444444 %check_save_state: izleft hours = 8.13805555555555 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.290000E+02 NSTEP= 64587 Hash code: 122172644 ->PRGCHK: bdy curvature ratio at t= 1.3000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 129.000000 ; TG2= 130.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0300E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 129.000000 TO TG2= 130.000000 @ NSTEP 64587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.58058E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.41404E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.41404E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.27651E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65080 TA= 1.29986E+02 CPU TIME= 8.19688E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.58517E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.41043E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.41043E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.28570E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.528E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.81770099999267 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9505E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65087 TA= 1.30000E+02 CPU TIME= 8.11494E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 72.1022975000000 %check_save_state: izleft hours = 7.81833333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.300000E+02 NSTEP= 65087 Hash code: 78593376 ->PRGCHK: bdy curvature ratio at t= 1.3100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 130.000000 ; TG2= 131.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0640E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 130.000000 TO TG2= 131.000000 @ NSTEP 65087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 72.1863908333333 %check_save_state: izleft hours = 7.73416666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3029400E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 87= -2.54844E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.42655E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25355E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.42655E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.29488E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65582 TA= 1.30990E+02 CPU TIME= 7.83058E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.76425E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.28772E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.28771E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.38672E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.737E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.58957500001998 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9489E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65587 TA= 1.31000E+02 CPU TIME= 7.81977E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 72.5234955555556 %check_save_state: izleft hours = 7.39722222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.149E+03 MB. --> plasma_hash("gframe"): TA= 1.310000E+02 NSTEP= 65587 Hash code: 67297585 ->PRGCHK: bdy curvature ratio at t= 1.3200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 131.000000 ; TG2= 132.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9550E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 131.000000 TO TG2= 132.000000 @ NSTEP 65587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 72.6079466666667 %check_save_state: izleft hours = 7.31277777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3127800E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 87= -2.92037E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.31095E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.43723E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.31094E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.48314E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65996 TA= 1.31818E+02 CPU TIME= 8.34503E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.82293E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.34018E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= 1.57957E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.34018E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= 1.57957E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.841E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.81301899999380 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9464E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66087 TA= 1.32000E+02 CPU TIME= 8.08643E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 72.9619772222223 %check_save_state: izleft hours = 6.95861111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.320000E+02 NSTEP= 66087 Hash code: 77700779 ->PRGCHK: bdy curvature ratio at t= 1.3300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 132.000000 ; TG2= 133.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1830E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 132.000000 TO TG2= 133.000000 @ NSTEP 66087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 73.0455875000001 %check_save_state: izleft hours = 6.87500000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3226000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66283 TA= 1.32392E+02 CPU TIME= 8.24227E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66293 TA= 1.32412E+02 CPU TIME= 8.17598E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66324 TA= 1.32474E+02 CPU TIME= 8.18907E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.37907E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.37907E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.34998E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66369 TA= 1.32564E+02 CPU TIME= 8.17415E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66429 TA= 1.32684E+02 CPU TIME= 8.17958E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66523 TA= 1.32872E+02 CPU TIME= 8.14371E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 90= 1.51988E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.26255E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -2.97547E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.26255E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -3.03057E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.277E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.74722099996870 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9428E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66587 TA= 1.33000E+02 CPU TIME= 8.18361E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 73.2508469444445 %check_save_state: izleft hours = 6.66972222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.330000E+02 NSTEP= 66587 Hash code: 8088051 ->PRGCHK: bdy curvature ratio at t= 1.3400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 133.000000 ; TG2= 134.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0560E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 133.000000 TO TG2= 134.000000 @ NSTEP 66587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66804 TA= 1.33434E+02 CPU TIME= 8.46297E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 1.70814E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.33337E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.93874E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.33337E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.93874E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66870 TA= 1.33566E+02 CPU TIME= 8.21634E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66890 TA= 1.33606E+02 CPU TIME= 8.24098E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66929 TA= 1.33684E+02 CPU TIME= 8.18453E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67001 TA= 1.33828E+02 CPU TIME= 8.18423E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67073 TA= 1.33972E+02 CPU TIME= 8.19096E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.32473E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.73708E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.44736E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.30507E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.73706E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.44735E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.29589E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.465E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.92842899996322 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9542E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 541.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 541.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 541.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67087 TA= 1.34000E+02 CPU TIME= 7.76209E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 73.4824394444446 %check_save_state: izleft hours = 6.43833333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.340000E+02 NSTEP= 67087 Hash code: 78518088 ->PRGCHK: bdy curvature ratio at t= 1.3500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 134.000000 ; TG2= 135.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9030E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 134.000000 TO TG2= 135.000000 @ NSTEP 67087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67168 TA= 1.34162E+02 CPU TIME= 7.77261E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 97= 2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.76692E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.25084E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= 1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.76691E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.25083E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= 1.32243E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67349 TA= 1.34524E+02 CPU TIME= 7.78523E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67522 TA= 1.34870E+02 CPU TIME= 7.83019E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 1.59335E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.61901E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.23584E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 98= 2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.61901E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.23584E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 98= 2.75506E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.592E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.53522800002247 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9678E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999964635819197E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67587 TA= 1.35000E+02 CPU TIME= 7.93093E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 73.6969888888890 %check_save_state: izleft hours = 6.22361111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.350000E+02 NSTEP= 67587 Hash code: 63342773 ->PRGCHK: bdy curvature ratio at t= 1.3600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 135.000000 ; TG2= 136.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9920E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 135.000000 TO TG2= 136.000000 @ NSTEP 67587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.81605E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 3.29854E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.51326E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.24896E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 3.29853E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.51325E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.26733E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67926 TA= 1.35678E+02 CPU TIME= 7.69798E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 1.58875E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 3.71088E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.47539E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 99= -2.16732E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 3.71087E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.47539E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 99= -2.20405E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.146E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.47060800000327 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9810E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 1.999957021325827E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68087 TA= 1.36000E+02 CPU TIME= 7.92290E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 73.8771250000001 %check_save_state: izleft hours = 6.04361111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.360000E+02 NSTEP= 68087 Hash code: 11705433 ->PRGCHK: bdy curvature ratio at t= 1.3700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 136.000000 ; TG2= 137.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9440E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 136.000000 TO TG2= 137.000000 @ NSTEP 68087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68187 TA= 1.36200E+02 CPU TIME= 7.89486E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68318 TA= 1.36462E+02 CPU TIME= 7.79517E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.66222E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.42494E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.48342E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.42493E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.48342E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.30406E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68438 TA= 1.36702E+02 CPU TIME= 7.90722E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68539 TA= 1.36904E+02 CPU TIME= 7.84724E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 91= 1.53824E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.32575E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.47001E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -3.14996E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.32574E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.47000E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -3.18669E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.495E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.55696400004672 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9843E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999964635819197E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68587 TA= 1.37000E+02 CPU TIME= 7.74320E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 74.0680325000001 %check_save_state: izleft hours = 5.85277777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.370000E+02 NSTEP= 68587 Hash code: 69334681 ->PRGCHK: bdy curvature ratio at t= 1.3800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 137.000000 ; TG2= 138.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9810E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 137.000000 TO TG2= 138.000000 @ NSTEP 68587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68743 TA= 1.37312E+02 CPU TIME= 7.73651E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.37524E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.32231E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.36110E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= -1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.32230E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.36110E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 2.46119E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68999 TA= 1.37824E+02 CPU TIME= 7.79565E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18697E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.79190E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.37698E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.69996E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.79189E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.37697E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.81017E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.53336999996100 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9885E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 69087 TA= 1.38000E+02 CPU TIME= 8.30679E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 74.2606022222223 %check_save_state: izleft hours = 5.66000000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.380000E+02 NSTEP= 69087 Hash code: 35758157 ->PRGCHK: bdy curvature ratio at t= 1.3900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 138.000000 ; TG2= 139.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9480E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 138.000000 TO TG2= 139.000000 @ NSTEP 69087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.24079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 8.60466E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.19514E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.78161E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 8.60465E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.19513E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.79998E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 69534 TA= 1.38894E+02 CPU TIME= 8.34574E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 88= -1.17549E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.18582E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -1.56120E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.18582E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.61630E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0370590000530 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9830E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 69587 TA= 1.39000E+02 CPU TIME= 8.64083E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 74.4526233333335 %check_save_state: izleft hours = 5.46805555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.390000E+02 NSTEP= 69587 Hash code: 122155741 ->PRGCHK: bdy curvature ratio at t= 1.4000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 139.000000 ; TG2= 140.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0400E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 139.000000 TO TG2= 140.000000 @ NSTEP 69587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.38313E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.24604E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.21682E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.24604E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.75865E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.38313E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.24604E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.21682E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.24604E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.75865E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0511969999643 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9756E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 70087 TA= 1.40000E+02 CPU TIME= 8.58390E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 74.6426958333334 %check_save_state: izleft hours = 5.27805555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.400000E+02 NSTEP= 70087 Hash code: 22333264 ->PRGCHK: bdy curvature ratio at t= 1.4100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 140.000000 ; TG2= 141.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0150E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 140.000000 TO TG2= 141.000000 @ NSTEP 70087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.54384E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.46889E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.28111E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.46888E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.26274E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.54384E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.46889E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.28111E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.46888E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.26274E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.151E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.59406999999192 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9684E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 70587 TA= 1.41000E+02 CPU TIME= 7.72384E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 74.8458772222223 %check_save_state: izleft hours = 5.07472222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.410000E+02 NSTEP= 70587 Hash code: 19451514 ->PRGCHK: bdy curvature ratio at t= 1.4200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 141.000000 ; TG2= 142.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9310E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 141.000000 TO TG2= 142.000000 @ NSTEP 70587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.26972E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.31784E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.26971E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.26972E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.31784E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.26971E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32702E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.757E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.88539999997010 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9629E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 71087 TA= 1.42000E+02 CPU TIME= 8.56968E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 75.0575319444445 %check_save_state: izleft hours = 4.86305555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.420000E+02 NSTEP= 71087 Hash code: 12054115 ->PRGCHK: bdy curvature ratio at t= 1.4300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 142.000000 ; TG2= 143.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0470E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 142.000000 TO TG2= 143.000000 @ NSTEP 71087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.62190E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.33664E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.33664E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.62190E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.33664E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.33664E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.29947E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.215E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 10.0477769999998 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9590E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 71587 TA= 1.43000E+02 CPU TIME= 7.71932E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 75.2889863888889 %check_save_state: izleft hours = 4.63166666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.430000E+02 NSTEP= 71587 Hash code: 120785153 ->PRGCHK: bdy curvature ratio at t= 1.4400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 143.000000 ; TG2= 144.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9200E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 143.000000 TO TG2= 144.000000 @ NSTEP 71587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.63109E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.35587E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.35586E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.63109E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.35587E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.35586E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32702E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.485E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.65087099996163 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9562E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72087 TA= 1.44000E+02 CPU TIME= 7.73611E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 75.5198083333334 %check_save_state: izleft hours = 4.40083333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.440000E+02 NSTEP= 72087 Hash code: 42166424 ->PRGCHK: bdy curvature ratio at t= 1.4500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 144.000000 ; TG2= 145.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8970E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 144.000000 TO TG2= 145.000000 @ NSTEP 72087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.67241E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.38468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33161E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.38467E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.67241E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.38468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33161E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.38467E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.847E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57800099998713 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9537E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72587 TA= 1.45000E+02 CPU TIME= 7.96769E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 75.8187511111112 %check_save_state: izleft hours = 4.10194444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.450000E+02 NSTEP= 72587 Hash code: 95203464 ->PRGCHK: bdy curvature ratio at t= 1.4600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 145.000000 ; TG2= 146.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1600E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 145.000000 TO TG2= 146.000000 @ NSTEP 72587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.41468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.41468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34539E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.41468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.41468E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34539E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.372E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.76094999996712 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9512E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73087 TA= 1.46000E+02 CPU TIME= 7.89075E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 76.1980661111112 %check_save_state: izleft hours = 3.72250000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.460000E+02 NSTEP= 73087 Hash code: 68765598 ->PRGCHK: bdy curvature ratio at t= 1.4700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 146.000000 ; TG2= 147.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 146.000000 TO TG2= 147.000000 @ NSTEP 73087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 76.2819833333334 %check_save_state: izleft hours = 3.63861111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4631200E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 87= -2.57139E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.22245E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.22245E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.57139E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.22245E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.22245E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.26733E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.825E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.92248200002359 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9484E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73587 TA= 1.47000E+02 CPU TIME= 7.57625E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 76.5967400000001 %check_save_state: izleft hours = 3.32388888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.470000E+02 NSTEP= 73587 Hash code: 1741690 ->PRGCHK: bdy curvature ratio at t= 1.4800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 147.000000 ; TG2= 148.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0250E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 147.000000 TO TG2= 148.000000 @ NSTEP 73587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 76.6805472222223 %check_save_state: izleft hours = 3.24000000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4726400E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 87= -2.87445E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.30076E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.30076E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.46018E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74082 TA= 1.47990E+02 CPU TIME= 7.19551E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.17779E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.39443E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.41886E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.39443E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.44641E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 6.812E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.60907599999337 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9452E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74087 TA= 1.48000E+02 CPU TIME= 7.67094E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 77.0460266666668 %check_save_state: izleft hours = 2.87472222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. --> plasma_hash("gframe"): TA= 1.480000E+02 NSTEP= 74087 Hash code: 28402646 ->PRGCHK: bdy curvature ratio at t= 1.4900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 148.000000 ; TG2= 149.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8080E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 148.000000 TO TG2= 149.000000 @ NSTEP 74087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 77.1297377777778 %check_save_state: izleft hours = 2.79083333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4825600E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 87= -2.97547E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.41884E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.48314E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.41883E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.49233E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74487 TA= 1.48800E+02 CPU TIME= 8.22926E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.82753E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.25534E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.25534E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.48774E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 7.582E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.34404200001154 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9416E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999964635819197E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74587 TA= 1.49000E+02 CPU TIME= 8.34201E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 77.4995150000001 %check_save_state: izleft hours = 2.42111111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.149E+03 MB. --> plasma_hash("gframe"): TA= 1.490000E+02 NSTEP= 74587 Hash code: 28787854 ->PRGCHK: bdy curvature ratio at t= 1.5000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 149.000000 ; TG2= 150.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.0630E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 149.000000 TO TG2= 150.000000 @ NSTEP 74587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 77.5840344444446 %check_save_state: izleft hours = 2.33666666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4928400E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.261E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 85= 1.38212E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.31156E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.65304E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.31156E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.67141E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74979 TA= 1.49784E+02 CPU TIME= 8.14733E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 84= 1.36605E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.39585E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 92= -1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.39584E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 92= -1.40508E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 9.358E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.99310399999376 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9373E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999964635819197E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75087 TA= 1.50000E+02 CPU TIME= 7.69242E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 77.9318491666667 %check_save_state: izleft hours = 1.98888888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 5.264E+03 MB. %check_save_state: wrote /p/transpgrid/qshare/00425I19_ST40.time_stop %check_save_state: slurm walltime abort %bad_exit: generic f77 error exit call (errset_mpi status 999) %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 7 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 0 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 1 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 2 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 3 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 4 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 5 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 6 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 18 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 19 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 20 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 21 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 22 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 23 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 24 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 25 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 26 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 27 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 28 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 29 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 30 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 31 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 9 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 10 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 13 cwd: (mpi_share_env) process myid= 14 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 15 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 16 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 17 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 8 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 11 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 12 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 /local/tr_xzhang/transp_compute/ST40/00425I19 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) erel= 1.0149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.2649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.5149E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.7649E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0151E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0376E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0601E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0826E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 9.1611E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall depall_mpi_split initinal done %depall nuse(isb)= 0 %depall depall_mpi_split initinal done %depall nuse(isb)= 0 %depall depall_mpi_split initinal done %depall nuse(isb)= 0 %depall specie #1 -> 0 - 0 (killed) + 855 (dep) = 855 ptcls. %depall specie #2 -> 0 - 0 (killed) + 2514 (dep) = 2514 ptcls. %depall specie #3 -> 0 - 0 (killed) + 12821 (dep) = 12821 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.680E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.749E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.751E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.694E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.668E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.748E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 1 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7991E+22 nbi_getprofiles ne*dvol sum (ions): 1.7991E+22 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.760E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.762E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.695E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.766E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.754E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.700E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.697E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 732 - 0 (killed) + 1484 (dep) = 2216 ptcls. %depall specie #2 -> 2473 - 0 (killed) + 2788 (dep) = 5261 ptcls. %depall specie #3 -> 11052 - 0 (killed) + 23002 (dep) = 34054 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2512 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.687E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.692E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.705E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.773E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.767E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.762E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.770E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 2 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8042E+22 nbi_getprofiles ne*dvol sum (ions): 1.8042E+22 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.698E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.702E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.764E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.767E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.775E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.761E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.696E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 1941 - 0 (killed) + 2190 (dep) = 4131 ptcls. %depall specie #2 -> 4757 - 0 (killed) + 4982 (dep) = 9739 ptcls. %depall specie #3 -> 29477 - 0 (killed) + 30564 (dep) = 60041 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball need 56 cx tracks %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orball: in processor 0: orbit # iorb= 853 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.711E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.712E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.715E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.769E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.775E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.760E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 3 ==> entering nubeam_step_child, mpi myidd = 0 nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8093E+22 nbi_getprofiles ne*dvol sum (ions): 1.8093E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.765E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.771E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.764E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.715E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.712E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.775E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.707E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3560 - 0 (killed) + 3298 (dep) = 6858 ptcls. %depall specie #2 -> 8067 - 0 (killed) + 10068 (dep) = 18135 ptcls. %depall specie #3 -> 51895 - 0 (killed) + 22220 (dep) = 74115 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 664 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orball: in processor 0: orbit # iorb= 5023 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.712E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.715E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.717E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.770E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.764E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.781E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 4 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8144E+22 nbi_getprofiles ne*dvol sum (ions): 1.8144E+22 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.781E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.711E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.770E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.712E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.713E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5836 - 0 (killed) + 4703 (dep) = 10539 ptcls. %depall specie #2 -> 16123 - 0 (killed) + 16315 (dep) = 32438 ptcls. %depall specie #3 -> 65247 - 0 (killed) + 17709 (dep) = 82956 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 2613 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orball: in processor 0: orbit # iorb= 1297 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.705E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.716E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.700E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.767E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.769E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.765E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 5 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbi_getprofiles ne*dvol sum (input): 1.8195E+22 nbi_getprofiles ne*dvol sum (ions): 1.8195E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.777E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.717E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.716E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.780E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.788E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.774E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.712E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 9059 - 0 (killed) + 6262 (dep) = 15321 ptcls. %depall specie #2 -> 29692 - 0 (killed) + 21932 (dep) = 51624 ptcls. %depall specie #3 -> 72605 - 0 (killed) + 14771 (dep) = 87376 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1020 never inside plasma. %orball: in processor 0: orbit # iorb= 314 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 2637 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orball: in processor 0: orbit # iorb= 2677 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.720E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.722E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.720E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.779E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.773E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.777E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 6 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8246E+22 nbi_getprofiles ne*dvol sum (ions): 1.8246E+22 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.716E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.777E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.720E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.722E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.779E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.780E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 13187 - 0 (killed) + 5888 (dep) = 19075 ptcls. %depall specie #2 -> 47703 - 0 (killed) + 25441 (dep) = 73144 ptcls. %depall specie #3 -> 76101 - 0 (killed) + 12819 (dep) = 88920 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1009 never inside plasma. %orball: in processor 0: orbit # iorb= 1118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 1482 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orball: in processor 0: orbit # iorb= 2166 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 4869 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 3462 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orball: in processor 0: orbit # iorb= 8377 never inside plasma. %orball: in processor 0: orbit # iorb= 10337 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.782E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.724E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.730E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.783E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.777E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.789E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 7 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbi_getprofiles ne*dvol sum (input): 1.8297E+22 nbi_getprofiles ne*dvol sum (ions): 1.8297E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.783E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.724E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.726E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.782E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.777E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 16743 - 0 (killed) + 5313 (dep) = 22056 ptcls. %depall specie #2 -> 67266 - 0 (killed) + 23031 (dep) = 90297 ptcls. %depall specie #3 -> 77627 - 0 (killed) + 11420 (dep) = 89047 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 551 never inside plasma. %orball: in processor 0: orbit # iorb= 1027 never inside plasma. %orball: in processor 0: orbit # iorb= 1405 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orball: in processor 0: orbit # iorb= 513 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 1045 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 4086 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0224E+00 %orball: in processor 0: orbit # iorb= 4119 never inside plasma. %orball: in processor 0: orbit # iorb= 5506 never inside plasma. %orball: in processor 0: orbit # iorb= 6876 never inside plasma. %orball: in processor 0: orbit # iorb= 7006 never inside plasma. %orball: in processor 0: orbit # iorb= 8117 never inside plasma. %orball: in processor 0: orbit # iorb= 8627 never inside plasma. %orball: in processor 0: orbit # iorb= 8686 never inside plasma. %orball: in processor 0: orbit # iorb= 8716 never inside plasma. %orball: in processor 0: orbit # iorb= 9082 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.734E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.797E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.791E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.782E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 8 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbi_getprofiles ne*dvol sum (input): 1.8347E+22 nbi_getprofiles ne*dvol sum (ions): 1.8347E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.797E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.801E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.791E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.734E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 19586 - 0 (killed) + 4903 (dep) = 24489 ptcls. %depall specie #2 -> 82404 - 0 (killed) + 21319 (dep) = 103723 ptcls. %depall specie #3 -> 77684 - 0 (killed) + 10424 (dep) = 88108 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2389 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 223 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orball: in processor 0: orbit # iorb= 2215 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 3508 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 5274 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 8258 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 8824 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orball: in processor 0: orbit # iorb= 1996 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orball: in processor 0: orbit # iorb= 2527 never inside plasma. %orball: in processor 0: orbit # iorb= 5372 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 7631 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 9517 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.737E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.796E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.739E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 9 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8398E+22 nbi_getprofiles ne*dvol sum (ions): 1.8398E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.739E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.725E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.796E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.733E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 21939 - 0 (killed) + 4611 (dep) = 26550 ptcls. %depall specie #2 -> 93308 - 0 (killed) + 19864 (dep) = 113172 ptcls. %depall specie #3 -> 76878 - 0 (killed) + 9709 (dep) = 86587 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1706 never inside plasma. %orball: in processor 0: orbit # iorb= 1925 never inside plasma. %orball: in processor 0: orbit # iorb= 2207 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0184E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orball: in processor 0: orbit # iorb= 2620 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 3054 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 4086 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 6600 never inside plasma. %orball: in processor 0: orbit # iorb= 6924 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orball: in processor 0: orbit # iorb= 7892 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 9203 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 8054 never inside plasma. %orball: in processor 0: orbit # iorb= 8082 never inside plasma. %orball: in processor 0: orbit # iorb= 8945 never inside plasma. %orball: in processor 0: orbit # iorb= 9278 never inside plasma. %orball: in processor 0: orbit # iorb= 9337 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.798E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.733E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.747E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.733E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.786E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 10 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbi_getprofiles ne*dvol sum (input): 1.8449E+22 nbi_getprofiles ne*dvol sum (ions): 1.8449E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 2 virtual memory size = 1.747E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.733E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.733E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.798E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.800E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 24015 - 0 (killed) + 4421 (dep) = 28436 ptcls. %depall specie #2 -> 100474 - 0 (killed) + 18095 (dep) = 118569 ptcls. %depall specie #3 -> 75450 - 0 (killed) + 9243 (dep) = 84693 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2450 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0251E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orball: in processor 0: orbit # iorb= 3388 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 4255 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 5434 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orball: in processor 0: orbit # iorb= 6785 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 7249 never inside plasma. %orball: in processor 0: orbit # iorb= 8075 never inside plasma. %orball: in processor 0: orbit # iorb= 8918 never inside plasma. %orball: in processor 0: orbit # iorb= 9422 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 11963 never inside plasma. %orball: in processor 0: orbit # iorb= 12155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 12256 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orball: in processor 0: orbit # iorb= 2590 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 4484 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 6168 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 8129 never inside plasma. %orball: in processor 0: orbit # iorb= 8431 never inside plasma. %orball: in processor 0: orbit # iorb= 8829 never inside plasma. %orball: in processor 0: orbit # iorb= 9454 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.742E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.747E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.737E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.803E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 11 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8500E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.8500E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.747E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.737E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.742E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 25900 - 0 (killed) + 4202 (dep) = 30102 ptcls. %depall specie #2 -> 103730 - 0 (killed) + 16757 (dep) = 120487 ptcls. %depall specie #3 -> 73683 - 0 (killed) + 8728 (dep) = 82411 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1081 never inside plasma. %orball: in processor 0: orbit # iorb= 2568 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 892 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 2539 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 7825 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 9415 never inside plasma. %orball: in processor 0: orbit # iorb= 9703 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 156 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orball: in processor 0: orbit # iorb= 5248 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.742E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.739E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.803E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 12 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8551E+22 nbi_getprofiles ne*dvol sum (ions): 1.8551E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.739E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.794E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.742E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 27469 - 0 (killed) + 4056 (dep) = 31525 ptcls. %depall specie #2 -> 104155 - 0 (killed) + 15549 (dep) = 119704 ptcls. %depall specie #3 -> 71905 - 0 (killed) + 8373 (dep) = 80278 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 223 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 4143 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 5991 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 6861 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 7608 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 648 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 2559 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 3019 never inside plasma. %orball: in processor 0: orbit # iorb= 3330 never inside plasma. %orball: in processor 0: orbit # iorb= 4128 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 6329 never inside plasma. %orball: in processor 0: orbit # iorb= 8929 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.798E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.751E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104)recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(75) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(66) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(74) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(63) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 13 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8602E+22 nbi_getprofiles ne*dvol sum (ions): 1.8602E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.743E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.798E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 28980 - 0 (killed) + 3928 (dep) = 32908 ptcls. %depall specie #2 -> 102700 - 0 (killed) + 14580 (dep) = 117280 ptcls. %depall specie #3 -> 70354 - 0 (killed) + 8067 (dep) = 78421 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 2878 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 3855 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orball: in processor 0: orbit # iorb= 5616 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orball: in processor 0: orbit # iorb= 7092 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 8062 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orball: in processor 0: orbit # iorb= 10051 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orball: in processor 0: orbit # iorb= 2014 never inside plasma. [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) %orball: in processor 0: orbit # iorb= 3388 never inside plasma. %orball: in processor 0: orbit # iorb= 3624 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 6842 never inside plasma. %orball: in processor 0: orbit # iorb= 7399 never inside plasma. [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) %orball: in processor 0: orbit # iorb= 8160 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.807E+03 MB. [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(64) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(66) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 14 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8653E+22 nbi_getprofiles ne*dvol sum (ions): 1.8653E+22 nbstart... %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.756E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.800E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 30306 - 0 (killed) + 3848 (dep) = 34154 ptcls. %depall specie #2 -> 99903 - 0 (killed) + 13809 (dep) = 113712 ptcls. %depall specie #3 -> 69039 - 0 (killed) + 7867 (dep) = 76906 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2734 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 1536 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 2261 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 2424 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orball: in processor 0: orbit # iorb= 3894 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orball: in processor 0: orbit # iorb= 6515 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 9947 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 10144 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 12072 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 2113 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orball: in processor 0: orbit # iorb= 3106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 7914 never inside plasma. %orball: in processor 0: orbit # iorb= 8570 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.750E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.760E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.811E+03 MB. [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune002][[25141,1],17][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],24][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],12][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],30][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],8][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(37) failed: Connection reset by peer (104) [mccune002][[25141,1],15][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],31][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],27][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],29][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune002][[25141,1],18][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],9][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],23][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],13][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] [mccune002][[25141,1],26][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],14][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(29) failed: Connection reset by peer (104) [mccune002][[25141,1],28][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(28) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],1][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],3][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],7][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(35) failed: Connection reset by peer (104) [mccune001][[25141,1],5][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],4][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],2][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(33) failed: Connection reset by peer (104) [mccune001][[25141,1],6][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(34) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(64) failed: Connection reset by peer (104) [mccune001][[25141,1],0][../../../../../opal/mca/btl/tcp/btl_tcp.c:559:mca_btl_tcp_recv_blocking] recv(66) failed: Connection reset by peer (104) ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 15 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8704E+22 nbi_getprofiles ne*dvol sum (ions): 1.8704E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.760E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.750E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 31611 - 0 (killed) + 3768 (dep) = 35379 ptcls. %depall specie #2 -> 96628 - 0 (killed) + 13118 (dep) = 109746 ptcls. %depall specie #3 -> 68094 - 0 (killed) + 7674 (dep) = 75768 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orball: in processor 0: orbit # iorb= 997 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 1924 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 2131 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 11780 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 251 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 2855 never inside plasma. %orball: in processor 0: orbit # iorb= 3023 never inside plasma. %orball: in processor 0: orbit # iorb= 3748 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 4097 never inside plasma. %orball: in processor 0: orbit # iorb= 7706 never inside plasma. %orball: in processor 0: orbit # iorb= 8203 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.772E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.754E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.817E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 16 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbi_getprofiles ne*dvol sum (input): 1.8755E+22 nbi_getprofiles ne*dvol sum (ions): 1.8755E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.772E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.754E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.746E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.803E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 32730 - 0 (killed) + 3725 (dep) = 36455 ptcls. %depall specie #2 -> 93557 - 0 (killed) + 12569 (dep) = 106126 ptcls. %depall specie #3 -> 67361 - 0 (killed) + 7564 (dep) = 74925 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1995 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orball: in processor 0: orbit # iorb= 3569 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 5114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 9837 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1615 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 2688 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 4344 never inside plasma. %orball: in processor 0: orbit # iorb= 7142 never inside plasma. %orball: in processor 0: orbit # iorb= 7882 never inside plasma. %orball: in processor 0: orbit # iorb= 8211 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.751E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.772E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 17 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (input): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbi_getprofiles ne*dvol sum (ions): 1.8806E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.772E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.751E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.831E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 33875 - 0 (killed) + 3672 (dep) = 37547 ptcls. %depall specie #2 -> 90820 - 0 (killed) + 12081 (dep) = 102901 ptcls. %depall specie #3 -> 66827 - 0 (killed) + 7436 (dep) = 74263 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 2168 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 5435 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 8373 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 9635 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 135 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 3647 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 6642 never inside plasma. %orball: in processor 0: orbit # iorb= 6850 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.757E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.824E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 18 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8856E+22 nbi_getprofiles ne*dvol sum (ions): 1.8856E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.757E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 35004 - 0 (killed) + 3642 (dep) = 38646 ptcls. %depall specie #2 -> 88063 - 0 (killed) + 11619 (dep) = 99682 ptcls. %depall specie #3 -> 66397 - 0 (killed) + 7358 (dep) = 73755 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2264 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 666 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orball: in processor 0: orbit # iorb= 1834 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 2545 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 4939 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 10824 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orball: in processor 0: orbit # iorb= 1075 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 6371 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orball: in processor 0: orbit # iorb= 7083 never inside plasma. %orball: in processor 0: orbit # iorb= 8031 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.760E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.759E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.816E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 19 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8907E+22 nbi_getprofiles ne*dvol sum (ions): 1.8907E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.760E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.759E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 36131 - 0 (killed) + 3610 (dep) = 39741 ptcls. %depall specie #2 -> 85189 - 0 (killed) + 11250 (dep) = 96439 ptcls. %depall specie #3 -> 66461 - 0 (killed) + 7276 (dep) = 73737 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 3533 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 3242 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 6756 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.822E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.777E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.763E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.759E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 20 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8958E+22 nbi_getprofiles ne*dvol sum (ions): 1.8958E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.822E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.759E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.763E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.773E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 37090 - 0 (killed) + 3571 (dep) = 40661 ptcls. %depall specie #2 -> 82897 - 0 (killed) + 11560 (dep) = 94457 ptcls. %depall specie #3 -> 66770 - 0 (killed) + 7180 (dep) = 73950 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 1522 never inside plasma. %orball: in processor 0: orbit # iorb= 4480 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 4886 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 5036 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 1068 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 1738 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 4791 never inside plasma. %orball: in processor 0: orbit # iorb= 4960 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 6897 never inside plasma. %orball: in processor 0: orbit # iorb= 7755 never inside plasma. %orball: in processor 0: orbit # iorb= 7896 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.822E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.773E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.829E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 21 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbi_getprofiles ne*dvol sum (input): 1.9009E+22 nbi_getprofiles ne*dvol sum (ions): 1.9009E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.773E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.768E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.822E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.836E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 38147 - 0 (killed) + 3515 (dep) = 41662 ptcls. %depall specie #2 -> 81665 - 0 (killed) + 11702 (dep) = 93367 ptcls. %depall specie #3 -> 67083 - 0 (killed) + 7038 (dep) = 74121 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 853 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 1243 never inside plasma. %orball: in processor 0: orbit # iorb= 4283 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 5039 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 6048 never inside plasma. %orball: in processor 0: orbit # iorb= 6590 never inside plasma. %orball: in processor 0: orbit # iorb= 6724 never inside plasma. %orball: in processor 0: orbit # iorb= 7382 never inside plasma. %orball: in processor 0: orbit # iorb= 7664 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 7684 never inside plasma. %orball: in processor 0: orbit # iorb= 7698 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 4 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.772E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.778E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.817E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 22 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbi_getprofiles ne*dvol sum (input): 1.9060E+22 nbi_getprofiles ne*dvol sum (ions): 1.9060E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.776E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.774E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.772E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 39086 - 0 (killed) + 3426 (dep) = 42512 ptcls. %depall specie #2 -> 81030 - 0 (killed) + 11715 (dep) = 92745 ptcls. %depall specie #3 -> 67522 - 0 (killed) + 6823 (dep) = 74345 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.366426E+08 3.365902E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 4560 never inside plasma. %orball: in processor 0: orbit # iorb= 267 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 2127 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 3807 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 6739 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 9325 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0208E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0208E+00 %orball: in processor 0: orbit # iorb= 2958 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 5233 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 6386 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.781E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.833E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.778E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.821E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 23 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbi_getprofiles ne*dvol sum (input): 1.9111E+22 nbi_getprofiles ne*dvol sum (ions): 1.9111E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.781E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.833E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.778E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 39996 - 0 (killed) + 3337 (dep) = 43333 ptcls. %depall specie #2 -> 81000 - 0 (killed) + 11600 (dep) = 92600 ptcls. %depall specie #3 -> 68026 - 0 (killed) + 6603 (dep) = 74629 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 3623 never inside plasma. %orball: in processor 0: orbit # iorb= 4661 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 5584 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 4351 never inside plasma. %orball: in processor 0: orbit # iorb= 5214 never inside plasma. %orball: in processor 0: orbit # iorb= 7729 never inside plasma. %orball: in processor 0: orbit # iorb= 7828 never inside plasma. orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.821E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 24 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbi_getprofiles ne*dvol sum (input): 1.9162E+22 nbi_getprofiles ne*dvol sum (ions): 1.9162E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.786E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 40880 - 0 (killed) + 3245 (dep) = 44125 ptcls. %depall specie #2 -> 81499 - 0 (killed) + 11248 (dep) = 92747 ptcls. %depall specie #3 -> 68707 - 0 (killed) + 6380 (dep) = 75087 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 2547 never inside plasma. %orball: in processor 0: orbit # iorb= 2718 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 5083 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 6730 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 432 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 1871 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 2865 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orball: in processor 0: orbit # iorb= 8262 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.821E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 25 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9212E+22 nbi_getprofiles ne*dvol sum (ions): 1.9212E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 41626 - 0 (killed) + 3167 (dep) = 44793 ptcls. %depall specie #2 -> 82049 - 0 (killed) + 10881 (dep) = 92930 ptcls. %depall specie #3 -> 69365 - 0 (killed) + 6188 (dep) = 75553 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orball: in processor 0: orbit # iorb= 6178 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orball: in processor 0: orbit # iorb= 6776 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 7151 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 1799 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 3520 never inside plasma. %orball: in processor 0: orbit # iorb= 4365 never inside plasma. %orball: in processor 0: orbit # iorb= 4479 never inside plasma. %orball: in processor 0: orbit # iorb= 4931 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 6964 never inside plasma. %orball: in processor 0: orbit # iorb= 7338 never inside plasma. %orball: in processor 0: orbit # iorb= 9183 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.846E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 26 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9263E+22 nbi_getprofiles ne*dvol sum (ions): 1.9263E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.849E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 42391 - 0 (killed) + 3087 (dep) = 45478 ptcls. %depall specie #2 -> 82668 - 0 (killed) + 10564 (dep) = 93232 ptcls. %depall specie #3 -> 69939 - 0 (killed) + 5997 (dep) = 75936 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 4.314763E+08 4.313995E+08 %orball: in processor 0: orbit # iorb= 2438 never inside plasma. %orball: in processor 0: orbit # iorb= 5049 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 8407 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 4484 never inside plasma. %orball: in processor 0: orbit # iorb= 5330 never inside plasma. %orball: in processor 0: orbit # iorb= 6342 never inside plasma. %orball: in processor 0: orbit # iorb= 6905 never inside plasma. %orball: in processor 0: orbit # iorb= 7065 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.850E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.844E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.854E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 27 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9314E+22 nbi_getprofiles ne*dvol sum (ions): 1.9314E+22 nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.844E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.850E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.785E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.789E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 43050 - 0 (killed) + 3016 (dep) = 46066 ptcls. %depall specie #2 -> 83592 - 0 (killed) + 10178 (dep) = 93770 ptcls. %depall specie #3 -> 70553 - 0 (killed) + 5822 (dep) = 76375 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.445790E+08 2.440849E+08 %orball: in processor 0: orbit # iorb= 2870 never inside plasma. %orball: in processor 0: orbit # iorb= 4555 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 1155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 4491 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 4871 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 5172 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orball: in processor 0: orbit # iorb= 8976 never inside plasma. %orball: in processor 0: orbit # iorb= 458 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 1605 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 4217 never inside plasma. %orball: in processor 0: orbit # iorb= 5123 never inside plasma. %orball: in processor 0: orbit # iorb= 5726 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 7539 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.848E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.798E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.801E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.811E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 28 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9365E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.9365E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.798E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.853E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.848E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.801E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.811E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 43738 - 0 (killed) + 2960 (dep) = 46698 ptcls. %depall specie #2 -> 84123 - 0 (killed) + 9823 (dep) = 93946 ptcls. %depall specie #3 -> 70993 - 0 (killed) + 5684 (dep) = 76677 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 3776 never inside plasma. %orball: in processor 0: orbit # iorb= 4192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orball: in processor 0: orbit # iorb= 4787 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1644 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 4671 never inside plasma. %orball: in processor 0: orbit # iorb= 5855 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 6858 never inside plasma. %orball: in processor 0: orbit # iorb= 7786 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 7991 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 29 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9416E+22 nbi_getprofiles ne*dvol sum (ions): 1.9416E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 44278 - 0 (killed) + 2908 (dep) = 47186 ptcls. %depall specie #2 -> 84811 - 0 (killed) + 9485 (dep) = 94296 ptcls. %depall specie #3 -> 71426 - 0 (killed) + 5557 (dep) = 76983 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.316858E+08 3.314722E+08 %orball: in processor 0: orbit # iorb= 3241 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 2768 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 3070 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0199E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 9237 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 1118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 2534 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orball: in processor 0: orbit # iorb= 8551 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.859E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 30 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9467E+22 nbi_getprofiles ne*dvol sum (ions): 1.9467E+22 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 44712 - 0 (killed) + 2865 (dep) = 47577 ptcls. %depall specie #2 -> 85129 - 0 (killed) + 9200 (dep) = 94329 ptcls. %depall specie #3 -> 71953 - 0 (killed) + 5446 (dep) = 77399 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 4436 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 6587 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.820E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.863E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 31 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbstart... nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbi_getprofiles ne*dvol sum (input): 1.9517E+22 nbi_getprofiles ne*dvol sum (ions): 1.9517E+22 nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.820E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.863E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 45190 - 0 (killed) + 2821 (dep) = 48011 ptcls. %depall specie #2 -> 85257 - 0 (killed) + 8902 (dep) = 94159 ptcls. %depall specie #3 -> 72509 - 0 (killed) + 5337 (dep) = 77846 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orball: in processor 0: orbit # iorb= 5616 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orball: in processor 0: orbit # iorb= 8777 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 10258 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 668 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 6192 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.820E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.870E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.871E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 32 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9568E+22 nbi_getprofiles ne*dvol sum (ions): 1.9568E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.870E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.820E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 45691 - 0 (killed) + 2786 (dep) = 48477 ptcls. %depall specie #2 -> 84975 - 0 (killed) + 8616 (dep) = 93591 ptcls. %depall specie #3 -> 73066 - 0 (killed) + 5248 (dep) = 78314 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 4105 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 5789 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 6999 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 1175 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 4989 never inside plasma. %orball: in processor 0: orbit # iorb= 5125 never inside plasma. %orball: in processor 0: orbit # iorb= 5170 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 6715 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 33 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9619E+22 nbi_getprofiles ne*dvol sum (ions): 1.9619E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.878E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.824E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 46123 - 0 (killed) + 2757 (dep) = 48880 ptcls. %depall specie #2 -> 84730 - 0 (killed) + 8381 (dep) = 93111 ptcls. %depall specie #3 -> 73431 - 0 (killed) + 5170 (dep) = 78601 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.473385E+08 2.466785E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 4136 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 7578 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.879E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.859E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 34 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9670E+22 nbi_getprofiles ne*dvol sum (ions): 1.9670E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.878E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.879E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.824E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 46540 - 0 (killed) + 2724 (dep) = 49264 ptcls. %depall specie #2 -> 84106 - 0 (killed) + 8177 (dep) = 92283 ptcls. %depall specie #3 -> 73875 - 0 (killed) + 5089 (dep) = 78964 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orball: in processor 0: orbit # iorb= 5358 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 7905 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0189E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 6021 never inside plasma. %orball: in processor 0: orbit # iorb= 6091 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 6276 never inside plasma. %orball: in processor 0: orbit # iorb= 6433 never inside plasma. %orball: in processor 0: orbit # iorb= 8235 never inside plasma. %orball: in processor 0: orbit # iorb= 8844 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.879E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.863E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 35 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9721E+22 nbi_getprofiles ne*dvol sum (ions): 1.9721E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.879E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.815E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 46891 - 0 (killed) + 2703 (dep) = 49594 ptcls. %depall specie #2 -> 83298 - 0 (killed) + 7967 (dep) = 91265 ptcls. %depall specie #3 -> 74274 - 0 (killed) + 5033 (dep) = 79307 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 3.442945E+08 3.437845E+08 %orball: in processor 0: orbit # iorb= 3569 never inside plasma. %orball: in processor 0: orbit # iorb= 4417 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orball: in processor 0: orbit # iorb= 5314 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 8930 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 2975 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orball: in processor 0: orbit # iorb= 5036 never inside plasma. %orball: in processor 0: orbit # iorb= 7724 never inside plasma. %orball: in processor 0: orbit # iorb= 9164 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.863E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 36 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9771E+22 nbi_getprofiles ne*dvol sum (ions): 1.9771E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.880E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 47154 - 0 (killed) + 2680 (dep) = 49834 ptcls. %depall specie #2 -> 82251 - 0 (killed) + 7778 (dep) = 90029 ptcls. %depall specie #3 -> 74786 - 0 (killed) + 4978 (dep) = 79764 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 4692 never inside plasma. %orball: in processor 0: orbit # iorb= 5497 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 8261 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 2465 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orball: in processor 0: orbit # iorb= 7378 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.881E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 37 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9822E+22 nbi_getprofiles ne*dvol sum (ions): 1.9822E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.881E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.837E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 47391 - 0 (killed) + 2662 (dep) = 50053 ptcls. %depall specie #2 -> 81366 - 0 (killed) + 7628 (dep) = 88994 ptcls. %depall specie #3 -> 75277 - 0 (killed) + 4931 (dep) = 80208 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %orball: in processor 0: orbit # iorb= 3022 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 648 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 2896 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orball: in processor 0: orbit # iorb= 6552 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orball: in processor 0: orbit # iorb= 8897 never inside plasma. %orball: in processor 0: orbit # iorb= 9207 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.867E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 38 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9873E+22 nbi_getprofiles ne*dvol sum (ions): 1.9873E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.887E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 47716 - 0 (killed) + 2642 (dep) = 50358 ptcls. %depall specie #2 -> 80608 - 0 (killed) + 7464 (dep) = 88072 ptcls. %depall specie #3 -> 75715 - 0 (killed) + 4881 (dep) = 80596 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.499065E+08 3.494546E+08 %orball: in processor 0: orbit # iorb= 5225 never inside plasma. %orball: in processor 0: orbit # iorb= 5356 never inside plasma. %orball: in processor 0: orbit # iorb= 5565 never inside plasma. %orball: in processor 0: orbit # iorb= 5728 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 6402 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 8927 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 1411 never inside plasma. %orball: in processor 0: orbit # iorb= 1734 never inside plasma. %orball: in processor 0: orbit # iorb= 3879 never inside plasma. %orball: in processor 0: orbit # iorb= 6281 never inside plasma. %orball: in processor 0: orbit # iorb= 8458 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.890E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.831E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.845E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 39 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.9924E+22 nbi_getprofiles ne*dvol sum (ions): 1.9924E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.890E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.831E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 47956 - 0 (killed) + 10890 (dep) = 58846 ptcls. %depall specie #2 -> 79891 - 0 (killed) + 11518 (dep) = 91409 ptcls. %depall specie #3 -> 76207 - 0 (killed) + 11097 (dep) = 87304 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.773127E+08 1.771478E+08 %cxline - vtor.gt.vion; vtor,vion = 1.628277E+08 1.628057E+08 %cxline - vtor.gt.vion; vtor,vion = 1.628531E+08 1.628057E+08 %cxline - vtor.gt.vion; vtor,vion = 2.865226E+08 2.865039E+08 %cxline - vtor.gt.vion; vtor,vion = 9.900184E+07 9.883194E+07 %cxline - vtor.gt.vion; vtor,vion = 2.527816E+08 2.526816E+08 %cxline - vtor.gt.vion; vtor,vion = 2.935459E+08 2.934129E+08 %orball: in processor 0: orbit # iorb= 2942 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.463863E+08 5.463471E+08 %orball: in processor 0: orbit # iorb= 5894 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orball: in processor 0: orbit # iorb= 7393 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 7042 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 8791 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 9443 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 3397 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orball: in processor 0: orbit # iorb= 4862 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 6970 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orball: in processor 0: orbit # iorb= 8895 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0199E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0258E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.890E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.828E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.896E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 40 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbi_getprofiles ne*dvol sum (input): 2.0938E+22 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 2.0938E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.896E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.890E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 26481 - 0 (killed) + 9092 (dep) = 35573 ptcls. %depall specie #2 -> 6049 - 0 (killed) + 11085 (dep) = 17134 ptcls. %depall specie #3 -> 28128 - 0 (killed) + 9462 (dep) = 37590 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.564435E+08 2.561781E+08 %cxline - vtor.gt.vion; vtor,vion = 3.298196E+08 3.296612E+08 %cxline - vtor.gt.vion; vtor,vion = 1.567784E+08 1.567051E+08 %orball: in processor 0: orbit # iorb= 1978 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.508293E+08 2.502910E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %cxline - vtor.gt.vion; vtor,vion = 5.282135E+08 5.281467E+08 %orball: in processor 0: orbit # iorb= 2557 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.902097E+08 3.899251E+08 %cxline - vtor.gt.vion; vtor,vion = 3.292603E+08 3.291570E+08 %orball: in processor 0: orbit # iorb= 3329 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 1115 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0222E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 3254 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... orball exited 0 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.847E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 41 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.1950E+22 nbi_getprofiles ne*dvol sum (ions): 2.1950E+22 nbstart... %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.847E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 14941 - 0 (killed) + 8568 (dep) = 23509 ptcls. %depall specie #2 -> 5605 - 0 (killed) + 11188 (dep) = 16793 ptcls. %depall specie #3 -> 8850 - 0 (killed) + 9363 (dep) = 18213 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.208059E+08 3.208017E+08 %cxline - vtor.gt.vion; vtor,vion = 1.732225E+08 1.729545E+08 %cxline - vtor.gt.vion; vtor,vion = 2.038748E+08 2.035402E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %cxline - vtor.gt.vion; vtor,vion = 2.442139E+08 2.440930E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 371 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.892E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.898E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.847E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.893E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.880E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 42 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.2962E+22 nbi_getprofiles ne*dvol sum (ions): 2.2962E+22 nbstart... nbstart... %nbi_states: cpu 6 virtual memory size = 1.894E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.843E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 10253 - 0 (killed) + 8331 (dep) = 18584 ptcls. %depall specie #2 -> 5223 - 0 (killed) + 11304 (dep) = 16527 ptcls. %depall specie #3 -> 7829 - 0 (killed) + 9332 (dep) = 17161 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 7.971301E+07 7.963715E+07 %cxline - vtor.gt.vion; vtor,vion = 1.169170E+08 1.168130E+08 %cxline - vtor.gt.vion; vtor,vion = 2.830286E+08 2.819256E+08 %cxline - vtor.gt.vion; vtor,vion = 2.565501E+08 2.565435E+08 %cxline - vtor.gt.vion; vtor,vion = 3.112777E+08 3.110625E+08 %orball: in processor 0: orbit # iorb= 1274 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 2361 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.896E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.890E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 43 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.4003E+22 nbi_getprofiles ne*dvol sum (ions): 2.4003E+22 nbstart... nbstart... %nbi_states: cpu 6 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.822E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 9060 - 0 (killed) + 8357 (dep) = 17417 ptcls. %depall specie #2 -> 5091 - 0 (killed) + 11378 (dep) = 16469 ptcls. %depall specie #3 -> 7508 - 0 (killed) + 9368 (dep) = 16876 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.344994E+08 1.344214E+08 %cxline - vtor.gt.vion; vtor,vion = 1.345492E+08 1.344214E+08 %cxline - vtor.gt.vion; vtor,vion = 4.172432E+08 4.170627E+08 %cxline - vtor.gt.vion; vtor,vion = 1.527524E+08 1.526289E+08 %cxline - vtor.gt.vion; vtor,vion = 1.271311E+08 1.270497E+08 %cxline - vtor.gt.vion; vtor,vion = 1.271772E+08 1.270497E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417921E+08 1.410390E+08 %cxline - vtor.gt.vion; vtor,vion = 3.610354E+08 3.606621E+08 %orball: in processor 0: orbit # iorb= 1027 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 848 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.892E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.902E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 44 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.5046E+22 nbi_getprofiles ne*dvol sum (ions): 2.5046E+22 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.823E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 8711 - 0 (killed) + 8375 (dep) = 17086 ptcls. %depall specie #2 -> 4779 - 0 (killed) + 11571 (dep) = 16350 ptcls. %depall specie #3 -> 7178 - 0 (killed) + 9492 (dep) = 16670 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.115846E+08 1.115742E+08 %cxline - vtor.gt.vion; vtor,vion = 1.116236E+08 1.113498E+08 %cxline - vtor.gt.vion; vtor,vion = 2.227986E+08 2.227316E+08 %cxline - vtor.gt.vion; vtor,vion = 2.246395E+08 2.246197E+08 %cxline - vtor.gt.vion; vtor,vion = 1.768736E+08 1.767863E+08 %cxline - vtor.gt.vion; vtor,vion = 1.419738E+08 1.411329E+08 %cxline - vtor.gt.vion; vtor,vion = 3.249976E+08 3.239898E+08 %cxline - vtor.gt.vion; vtor,vion = 1.430426E+08 1.414785E+08 %cxline - vtor.gt.vion; vtor,vion = 3.995288E+08 3.993288E+08 %orball: in processor 0: orbit # iorb= 1313 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.893E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.884E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 45 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.6089E+22 nbi_getprofiles ne*dvol sum (ions): 2.6089E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 8379 - 0 (killed) + 8530 (dep) = 16909 ptcls. %depall specie #2 -> 4822 - 0 (killed) + 11617 (dep) = 16439 ptcls. %depall specie #3 -> 7032 - 0 (killed) + 9626 (dep) = 16658 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 3.352448E+08 3.333663E+08 %cxline - vtor.gt.vion; vtor,vion = 1.667590E+08 1.661534E+08 %cxline - vtor.gt.vion; vtor,vion = 2.395796E+08 2.394078E+08 %cxline - vtor.gt.vion; vtor,vion = 1.722940E+08 1.720014E+08 %cxline - vtor.gt.vion; vtor,vion = 1.029041E+08 1.020131E+08 %cxline - vtor.gt.vion; vtor,vion = 4.055473E+08 4.054280E+08 %cxline - vtor.gt.vion; vtor,vion = 4.617105E+08 4.590613E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0199E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.892E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.877E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 46 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.7133E+22 nbi_getprofiles ne*dvol sum (ions): 2.7133E+22 nbstart... %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 8176 - 0 (killed) + 8544 (dep) = 16720 ptcls. %depall specie #2 -> 4504 - 0 (killed) + 11738 (dep) = 16242 ptcls. %depall specie #3 -> 6778 - 0 (killed) + 9679 (dep) = 16457 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.323314E+08 1.321846E+08 %cxline - vtor.gt.vion; vtor,vion = 2.187649E+08 2.181348E+08 %cxline - vtor.gt.vion; vtor,vion = 3.191049E+08 3.189554E+08 %cxline - vtor.gt.vion; vtor,vion = 2.969331E+08 2.948597E+08 %cxline - vtor.gt.vion; vtor,vion = 3.041210E+08 3.012415E+08 %orball: in processor 0: orbit # iorb= 391 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.200897E+08 2.199858E+08 %cxline - vtor.gt.vion; vtor,vion = 2.202622E+08 2.199858E+08 %cxline - vtor.gt.vion; vtor,vion = 2.929572E+08 2.929330E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.894E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.885E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 47 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.8178E+22 nbi_getprofiles ne*dvol sum (ions): 2.8178E+22 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.898E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7983 - 0 (killed) + 8686 (dep) = 16669 ptcls. %depall specie #2 -> 4373 - 0 (killed) + 11914 (dep) = 16287 ptcls. %depall specie #3 -> 6595 - 0 (killed) + 9858 (dep) = 16453 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.614850E+08 3.585460E+08 %orball: in processor 0: orbit # iorb= 115 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.196958E+08 1.191551E+08 %cxline - vtor.gt.vion; vtor,vion = 1.873566E+08 1.873414E+08 %cxline - vtor.gt.vion; vtor,vion = 2.276740E+08 2.271686E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %cxline - vtor.gt.vion; vtor,vion = 3.160938E+08 3.151933E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 11 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.906E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.833E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.879E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 48 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 2.9213E+22 nbi_getprofiles ne*dvol sum (ions): 2.9213E+22 nbstart... %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7918 - 0 (killed) + 8718 (dep) = 16636 ptcls. %depall specie #2 -> 4231 - 0 (killed) + 12013 (dep) = 16244 ptcls. %depall specie #3 -> 6398 - 0 (killed) + 9977 (dep) = 16375 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.540598E+08 2.503297E+08 %cxline - vtor.gt.vion; vtor,vion = 2.562063E+08 2.562057E+08 %cxline - vtor.gt.vion; vtor,vion = 2.771058E+08 2.764784E+08 %cxline - vtor.gt.vion; vtor,vion = 1.624283E+08 1.623603E+08 %cxline - vtor.gt.vion; vtor,vion = 1.561326E+08 1.560723E+08 %cxline - vtor.gt.vion; vtor,vion = 1.979262E+08 1.976597E+08 %cxline - vtor.gt.vion; vtor,vion = 2.343918E+08 2.343392E+08 %cxline - vtor.gt.vion; vtor,vion = 1.521090E+08 1.519728E+08 %cxline - vtor.gt.vion; vtor,vion = 1.418545E+08 1.416877E+08 %cxline - vtor.gt.vion; vtor,vion = 2.078101E+08 2.071571E+08 %cxline - vtor.gt.vion; vtor,vion = 1.175984E+08 1.175584E+08 %cxline - vtor.gt.vion; vtor,vion = 1.914510E+08 1.912380E+08 %cxline - vtor.gt.vion; vtor,vion = 3.407477E+08 3.398079E+08 %cxline - vtor.gt.vion; vtor,vion = 2.849991E+08 2.848324E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.833E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.882E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 49 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.0248E+22 nbi_getprofiles ne*dvol sum (ions): 3.0248E+22 nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.881E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.875E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7753 - 0 (killed) + 8739 (dep) = 16492 ptcls. %depall specie #2 -> 4055 - 0 (killed) + 12111 (dep) = 16166 ptcls. %depall specie #3 -> 6254 - 0 (killed) + 10032 (dep) = 16286 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.275107E+08 1.274697E+08 %cxline - vtor.gt.vion; vtor,vion = 2.042719E+08 2.022486E+08 %cxline - vtor.gt.vion; vtor,vion = 1.401017E+08 1.378216E+08 %cxline - vtor.gt.vion; vtor,vion = 1.155304E+08 1.155281E+08 %cxline - vtor.gt.vion; vtor,vion = 1.158149E+08 1.155281E+08 %cxline - vtor.gt.vion; vtor,vion = 1.608734E+08 1.593976E+08 %cxline - vtor.gt.vion; vtor,vion = 1.569391E+08 1.561522E+08 %cxline - vtor.gt.vion; vtor,vion = 1.567038E+08 1.561522E+08 %cxline - vtor.gt.vion; vtor,vion = 3.501394E+08 3.499567E+08 %cxline - vtor.gt.vion; vtor,vion = 2.069115E+08 2.066968E+08 %cxline - vtor.gt.vion; vtor,vion = 1.784927E+08 1.781269E+08 %cxline - vtor.gt.vion; vtor,vion = 3.084327E+08 3.078569E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.907E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.889E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 50 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 nbi_getprofiles ne*dvol sum (input): 3.1284E+22 nbi_getprofiles ne*dvol sum (ions): 3.1284E+22 %note: constrained curt @ bdy to: 7468968.32397936 a. %note: constrained curt @ bdy to: 7468968.32397936 a. %note: constrained curt @ bdy to: 7468968.32397936 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7468968.32397936 a. %note: constrained curt @ bdy to: 7468968.32397936 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7468968.32397936 a. nbstart... %note: constrained curt @ bdy to: 7468968.32397936 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7468968.32397936 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.900E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.834E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7584 - 0 (killed) + 8826 (dep) = 16410 ptcls. %depall specie #2 -> 3903 - 0 (killed) + 12253 (dep) = 16156 ptcls. %depall specie #3 -> 6006 - 0 (killed) + 10209 (dep) = 16215 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.882335E+08 2.866329E+08 %cxline - vtor.gt.vion; vtor,vion = 1.523241E+08 1.511779E+08 %cxline - vtor.gt.vion; vtor,vion = 1.515703E+08 1.511779E+08 %cxline - vtor.gt.vion; vtor,vion = 1.488627E+08 1.481550E+08 %cxline - vtor.gt.vion; vtor,vion = 1.929924E+08 1.915457E+08 %cxline - vtor.gt.vion; vtor,vion = 1.841233E+08 1.835043E+08 %cxline - vtor.gt.vion; vtor,vion = 9.364388E+07 9.262137E+07 %cxline - vtor.gt.vion; vtor,vion = 2.996671E+08 2.993910E+08 %orball: in processor 0: orbit # iorb= 459 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.775271E+08 2.768668E+08 %cxline - vtor.gt.vion; vtor,vion = 1.984447E+08 1.974799E+08 %cxline - vtor.gt.vion; vtor,vion = 1.249948E+08 1.244849E+08 %cxline - vtor.gt.vion; vtor,vion = 1.753143E+08 1.740679E+08 %cxline - vtor.gt.vion; vtor,vion = 2.485151E+08 2.453975E+08 %orball: in processor 0: orbit # iorb= 1703 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.056601E+08 2.053606E+08 %orball: in processor 0: orbit # iorb= 2095 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.896E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.907E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.879E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 51 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 %note: constrained curt @ bdy to: 7695384.34832934 a. %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... %note: constrained curt @ bdy to: 7695384.34832934 a. %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... nbi_getprofiles ne*dvol sum (input): 3.2322E+22 nbi_getprofiles ne*dvol sum (ions): 3.2322E+22 %note: constrained curt @ bdy to: 7695384.34832934 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.834E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.892E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7468 - 0 (killed) + 8896 (dep) = 16364 ptcls. %depall specie #2 -> 3829 - 0 (killed) + 12326 (dep) = 16155 ptcls. %depall specie #3 -> 5840 - 0 (killed) + 10351 (dep) = 16191 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 40 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %cxline - vtor.gt.vion; vtor,vion = 5.327815E+08 5.326417E+08 %cxline - vtor.gt.vion; vtor,vion = 2.036267E+08 2.016017E+08 %cxline - vtor.gt.vion; vtor,vion = 2.126561E+08 2.121368E+08 %cxline - vtor.gt.vion; vtor,vion = 5.530509E+07 5.520768E+07 %cxline - vtor.gt.vion; vtor,vion = 1.390347E+08 1.382248E+08 %cxline - vtor.gt.vion; vtor,vion = 2.064346E+08 2.057509E+08 %cxline - vtor.gt.vion; vtor,vion = 2.060917E+08 2.057509E+08 %cxline - vtor.gt.vion; vtor,vion = 2.477672E+08 2.471337E+08 %cxline - vtor.gt.vion; vtor,vion = 2.169871E+08 2.157341E+08 %cxline - vtor.gt.vion; vtor,vion = 1.985442E+08 1.982562E+08 %cxline - vtor.gt.vion; vtor,vion = 2.019435E+08 2.017422E+08 %cxline - vtor.gt.vion; vtor,vion = 1.787719E+08 1.785629E+08 %cxline - vtor.gt.vion; vtor,vion = 1.788771E+08 1.785629E+08 %cxline - vtor.gt.vion; vtor,vion = 2.186940E+08 2.186336E+08 %cxline - vtor.gt.vion; vtor,vion = 1.478978E+08 1.449243E+08 %cxline - vtor.gt.vion; vtor,vion = 3.383731E+08 3.379674E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orball: in processor 0: orbit # iorb= 291 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 5 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.890E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.904E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 52 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 %note: constrained curt @ bdy to: 7881376.80345562 a. %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbi_getprofiles ne*dvol sum (input): 3.3360E+22 nbi_getprofiles ne*dvol sum (ions): 3.3360E+22 nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... %note: constrained curt @ bdy to: 7881376.80345562 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.898E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.889E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7239 - 0 (killed) + 9004 (dep) = 16243 ptcls. %depall specie #2 -> 3655 - 0 (killed) + 12444 (dep) = 16099 ptcls. %depall specie #3 -> 5847 - 0 (killed) + 10358 (dep) = 16205 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.349102E+08 3.322232E+08 %cxline - vtor.gt.vion; vtor,vion = 3.383961E+08 3.365799E+08 %orball: in processor 0: orbit # iorb= 252 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.368492E+08 4.344369E+08 %cxline - vtor.gt.vion; vtor,vion = 2.530088E+08 2.523741E+08 %cxline - vtor.gt.vion; vtor,vion = 2.994122E+08 2.951933E+08 %cxline - vtor.gt.vion; vtor,vion = 2.178258E+08 2.158061E+08 %cxline - vtor.gt.vion; vtor,vion = 2.186723E+08 2.158061E+08 %cxline - vtor.gt.vion; vtor,vion = 3.418262E+08 3.403843E+08 %cxline - vtor.gt.vion; vtor,vion = 1.871541E+08 1.834937E+08 %cxline - vtor.gt.vion; vtor,vion = 3.292274E+08 3.253454E+08 %cxline - vtor.gt.vion; vtor,vion = 1.964054E+08 1.962327E+08 %cxline - vtor.gt.vion; vtor,vion = 1.181665E+08 1.166945E+08 %orball: in processor 0: orbit # iorb= 902 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.879513E+08 2.875507E+08 %cxline - vtor.gt.vion; vtor,vion = 3.047904E+08 3.047223E+08 %cxline - vtor.gt.vion; vtor,vion = 1.255204E+08 1.248560E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0228E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.870E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 53 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (input): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 %note: constrained curt @ bdy to: 7715293.40882415 a. nbi_getprofiles ne*dvol sum (input): 3.4399E+22 %note: constrained curt @ bdy to: 7715293.40882415 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7715293.40882415 a. %note: constrained curt @ bdy to: 7715293.40882415 a. %note: constrained curt @ bdy to: 7715293.40882415 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7715293.40882415 a. nbstart... nbstart... %note: constrained curt @ bdy to: 7715293.40882415 a. nbstart... nbi_getprofiles ne*dvol sum (ions): 3.4399E+22 %note: constrained curt @ bdy to: 7715293.40882415 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.870E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.828E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7196 - 0 (killed) + 9082 (dep) = 16278 ptcls. %depall specie #2 -> 3631 - 0 (killed) + 12504 (dep) = 16135 ptcls. %depall specie #3 -> 5597 - 0 (killed) + 10539 (dep) = 16136 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.062381E+08 1.061118E+08 %cxline - vtor.gt.vion; vtor,vion = 2.049688E+08 2.049470E+08 %cxline - vtor.gt.vion; vtor,vion = 1.589689E+08 1.586363E+08 %cxline - vtor.gt.vion; vtor,vion = 2.313824E+08 2.305777E+08 %cxline - vtor.gt.vion; vtor,vion = 2.283321E+08 2.280616E+08 %cxline - vtor.gt.vion; vtor,vion = 3.967224E+08 3.966317E+08 %cxline - vtor.gt.vion; vtor,vion = 2.479499E+08 2.476766E+08 %cxline - vtor.gt.vion; vtor,vion = 1.922757E+08 1.895806E+08 %cxline - vtor.gt.vion; vtor,vion = 1.926785E+08 1.918464E+08 %cxline - vtor.gt.vion; vtor,vion = 3.570655E+08 3.526755E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0207E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.892E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.894E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.878E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 54 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 %note: constrained curt @ bdy to: 7782306.87199978 a. %note: constrained curt @ bdy to: 7782306.87199978 a. %note: constrained curt @ bdy to: 7782306.87199978 a. nbstart... %note: constrained curt @ bdy to: 7782306.87199978 a. %note: constrained curt @ bdy to: 7782306.87199978 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 7782306.87199978 a. %note: constrained curt @ bdy to: 7782306.87199978 a. nbstart... nbi_getprofiles ne*dvol sum (input): 3.5438E+22 nbi_getprofiles ne*dvol sum (ions): 3.5438E+22 nbstart... %note: constrained curt @ bdy to: 7782306.87199978 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 7113 - 0 (killed) + 9097 (dep) = 16210 ptcls. %depall specie #2 -> 3596 - 0 (killed) + 12494 (dep) = 16090 ptcls. %depall specie #3 -> 5585 - 0 (killed) + 10540 (dep) = 16125 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.786918E+08 2.784999E+08 %cxline - vtor.gt.vion; vtor,vion = 3.416761E+08 3.396134E+08 %cxline - vtor.gt.vion; vtor,vion = 2.973697E+08 2.973574E+08 %orball: in processor 0: orbit # iorb= 728 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.163599E+08 2.158517E+08 %orball: in processor 0: orbit # iorb= 961 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %cxline - vtor.gt.vion; vtor,vion = 4.850050E+08 4.817577E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0170E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.892E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.894E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.874E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 55 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 %note: constrained curt @ bdy to: 7934112.25718129 a. %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... nbi_getprofiles ne*dvol sum (input): 3.6476E+22 %note: constrained curt @ bdy to: 7934112.25718129 a. %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... nbi_getprofiles ne*dvol sum (input): 3.6476E+22 nbi_getprofiles ne*dvol sum (ions): 3.6476E+22 %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... %note: constrained curt @ bdy to: 7934112.25718129 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.837E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6799 - 0 (killed) + 9357 (dep) = 16156 ptcls. %depall specie #2 -> 3335 - 0 (killed) + 12752 (dep) = 16087 ptcls. %depall specie #3 -> 5281 - 0 (killed) + 10822 (dep) = 16103 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 8.776439E+07 8.744062E+07 %cxline - vtor.gt.vion; vtor,vion = 3.017339E+08 3.015371E+08 %orball: in processor 0: orbit # iorb= 254 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.598604E+08 3.583011E+08 %orball: in processor 0: orbit # iorb= 514 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.117228E+08 6.095602E+08 %cxline - vtor.gt.vion; vtor,vion = 3.721050E+08 3.645350E+08 %cxline - vtor.gt.vion; vtor,vion = 2.840674E+08 2.824944E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 559 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.878E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.872E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 56 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 %note: constrained curt @ bdy to: 8047930.19242620 a. %note: constrained curt @ bdy to: 8047930.19242620 a. nbstart... %note: constrained curt @ bdy to: 8047930.19242620 a. %note: constrained curt @ bdy to: 8047930.19242620 a. nbstart... nbstart... %note: constrained curt @ bdy to: 8047930.19242620 a. %note: constrained curt @ bdy to: 8047930.19242620 a. nbstart... %note: constrained curt @ bdy to: 8047930.19242620 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.7515E+22 nbi_getprofiles ne*dvol sum (ions): 3.7515E+22 %note: constrained curt @ bdy to: 8047930.19242620 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6889 - 0 (killed) + 9362 (dep) = 16251 ptcls. %depall specie #2 -> 3325 - 0 (killed) + 12780 (dep) = 16105 ptcls. %depall specie #3 -> 5407 - 0 (killed) + 10786 (dep) = 16193 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 4.509023E+08 4.463196E+08 %cxline - vtor.gt.vion; vtor,vion = 1.174637E+08 1.169106E+08 %cxline - vtor.gt.vion; vtor,vion = 1.172115E+08 1.169106E+08 %cxline - vtor.gt.vion; vtor,vion = 9.492280E+07 9.419439E+07 %cxline - vtor.gt.vion; vtor,vion = 1.891393E+08 1.886949E+08 %cxline - vtor.gt.vion; vtor,vion = 3.304236E+08 3.303597E+08 %cxline - vtor.gt.vion; vtor,vion = 1.718511E+08 1.715297E+08 %cxline - vtor.gt.vion; vtor,vion = 1.719688E+08 1.715297E+08 %cxline - vtor.gt.vion; vtor,vion = 1.362850E+08 1.331384E+08 %cxline - vtor.gt.vion; vtor,vion = 1.375569E+08 1.331384E+08 %cxline - vtor.gt.vion; vtor,vion = 1.350971E+08 1.325817E+08 %cxline - vtor.gt.vion; vtor,vion = 1.352100E+08 1.325817E+08 %cxline - vtor.gt.vion; vtor,vion = 1.361223E+08 1.327573E+08 %cxline - vtor.gt.vion; vtor,vion = 1.370112E+08 1.327573E+08 %cxline - vtor.gt.vion; vtor,vion = 1.340341E+08 1.331570E+08 %cxline - vtor.gt.vion; vtor,vion = 1.346171E+08 1.331570E+08 %cxline - vtor.gt.vion; vtor,vion = 1.878983E+08 1.861599E+08 %cxline - vtor.gt.vion; vtor,vion = 3.828477E+08 3.828421E+08 %cxline - vtor.gt.vion; vtor,vion = 1.396539E+08 1.391824E+08 %cxline - vtor.gt.vion; vtor,vion = 1.983954E+08 1.972470E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.873E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 57 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8554E+22 nbi_getprofiles ne*dvol sum (ions): 3.8554E+22 %note: constrained curt @ bdy to: 8201196.69264737 a. nbstart... %nbi_states: cpu 6 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.815E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6826 - 0 (killed) + 9439 (dep) = 16265 ptcls. %depall specie #2 -> 3282 - 0 (killed) + 12840 (dep) = 16122 ptcls. %depall specie #3 -> 5206 - 0 (killed) + 10937 (dep) = 16143 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 7.822274E+07 7.803492E+07 %cxline - vtor.gt.vion; vtor,vion = 7.967859E+07 7.803492E+07 %cxline - vtor.gt.vion; vtor,vion = 1.305248E+08 1.302296E+08 %cxline - vtor.gt.vion; vtor,vion = 1.739057E+08 1.725819E+08 %cxline - vtor.gt.vion; vtor,vion = 1.094164E+08 1.080686E+08 %cxline - vtor.gt.vion; vtor,vion = 2.468978E+08 2.420725E+08 %cxline - vtor.gt.vion; vtor,vion = 1.816965E+08 1.816337E+08 %cxline - vtor.gt.vion; vtor,vion = 1.618747E+08 1.609058E+08 %cxline - vtor.gt.vion; vtor,vion = 1.626268E+08 1.609058E+08 %cxline - vtor.gt.vion; vtor,vion = 2.438517E+08 2.436606E+08 %orball: in processor 0: orbit # iorb= 1175 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0167E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 3 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.874E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 58 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 %note: constrained curt @ bdy to: 8318240.91721843 a. %note: constrained curt @ bdy to: 8318240.91721843 a. %note: constrained curt @ bdy to: 8318240.91721843 a. nbstart... nbstart... %note: constrained curt @ bdy to: 8318240.91721843 a. nbstart... %note: constrained curt @ bdy to: 8318240.91721843 a. %note: constrained curt @ bdy to: 8318240.91721843 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 8318240.91721843 a. nbstart... nbi_getprofiles ne*dvol sum (input): 3.9593E+22 nbi_getprofiles ne*dvol sum (ions): 3.9593E+22 %note: constrained curt @ bdy to: 8318240.91721843 a. nbstart... %nbi_states: cpu 6 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.791E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6744 - 0 (killed) + 9483 (dep) = 16227 ptcls. %depall specie #2 -> 3192 - 0 (killed) + 12900 (dep) = 16092 ptcls. %depall specie #3 -> 5092 - 0 (killed) + 11030 (dep) = 16122 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.700355E+08 2.684323E+08 %cxline - vtor.gt.vion; vtor,vion = 2.855436E+08 2.853750E+08 %orball: in processor 0: orbit # iorb= 210 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.785335E+08 1.783616E+08 %cxline - vtor.gt.vion; vtor,vion = 2.501888E+08 2.475419E+08 %cxline - vtor.gt.vion; vtor,vion = 2.660994E+08 2.659615E+08 %cxline - vtor.gt.vion; vtor,vion = 1.358253E+08 1.357940E+08 %orball: in processor 0: orbit # iorb= 377 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.285136E+08 3.266483E+08 %cxline - vtor.gt.vion; vtor,vion = 1.043983E+08 1.026846E+08 %cxline - vtor.gt.vion; vtor,vion = 3.030981E+08 3.015500E+08 %cxline - vtor.gt.vion; vtor,vion = 2.600357E+08 2.596049E+08 %cxline - vtor.gt.vion; vtor,vion = 1.562088E+08 1.559314E+08 %cxline - vtor.gt.vion; vtor,vion = 1.563667E+08 1.559314E+08 %cxline - vtor.gt.vion; vtor,vion = 1.401225E+08 1.390020E+08 %cxline - vtor.gt.vion; vtor,vion = 4.377274E+08 4.351169E+08 %orball: in processor 0: orbit # iorb= 1163 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.494980E+08 1.487513E+08 %orball: in processor 0: orbit # iorb= 1759 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0173E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 1715 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.791E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.882E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.858E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 59 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 %note: constrained curt @ bdy to: 8478302.10531440 a. %note: constrained curt @ bdy to: 8478302.10531440 a. nbstart... %note: constrained curt @ bdy to: 8478302.10531440 a. %note: constrained curt @ bdy to: 8478302.10531440 a. %note: constrained curt @ bdy to: 8478302.10531440 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 8478302.10531440 a. nbstart... %note: constrained curt @ bdy to: 8478302.10531440 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.0632E+22 nbi_getprofiles ne*dvol sum (ions): 4.0632E+22 %note: constrained curt @ bdy to: 8478302.10531440 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.817E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.791E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6587 - 0 (killed) + 9595 (dep) = 16182 ptcls. %depall specie #2 -> 3068 - 0 (killed) + 13014 (dep) = 16082 ptcls. %depall specie #3 -> 4917 - 0 (killed) + 11185 (dep) = 16102 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.580971E+08 1.555818E+08 %cxline - vtor.gt.vion; vtor,vion = 1.069276E+08 1.032241E+08 %cxline - vtor.gt.vion; vtor,vion = 1.743395E+08 1.706962E+08 %cxline - vtor.gt.vion; vtor,vion = 1.195580E+08 1.194143E+08 %cxline - vtor.gt.vion; vtor,vion = 1.338514E+08 1.330750E+08 %cxline - vtor.gt.vion; vtor,vion = 4.766790E+08 4.748001E+08 %cxline - vtor.gt.vion; vtor,vion = 2.816778E+08 2.804523E+08 %cxline - vtor.gt.vion; vtor,vion = 2.830493E+08 2.804523E+08 %cxline - vtor.gt.vion; vtor,vion = 1.486794E+08 1.485572E+08 %cxline - vtor.gt.vion; vtor,vion = 2.008512E+08 1.997838E+08 %cxline - vtor.gt.vion; vtor,vion = 1.959915E+08 1.953435E+08 %cxline - vtor.gt.vion; vtor,vion = 2.999042E+08 2.989436E+08 %cxline - vtor.gt.vion; vtor,vion = 2.641501E+08 2.630005E+08 %cxline - vtor.gt.vion; vtor,vion = 1.443431E+08 1.418787E+08 %cxline - vtor.gt.vion; vtor,vion = 2.242248E+08 2.239176E+08 %cxline - vtor.gt.vion; vtor,vion = 1.502383E+08 1.499582E+08 %cxline - vtor.gt.vion; vtor,vion = 3.660420E+08 3.658363E+08 %cxline - vtor.gt.vion; vtor,vion = 1.828309E+08 1.814078E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0204E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0176E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.852E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 60 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 %note: constrained curt @ bdy to: 8599307.02969505 a. %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... %note: constrained curt @ bdy to: 8599307.02969505 a. %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... nbstart... %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.1671E+22 nbi_getprofiles ne*dvol sum (ions): 4.1671E+22 %note: constrained curt @ bdy to: 8599307.02969505 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.865E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6488 - 0 (killed) + 9615 (dep) = 16103 ptcls. %depall specie #2 -> 2957 - 0 (killed) + 13074 (dep) = 16031 ptcls. %depall specie #3 -> 5013 - 0 (killed) + 11092 (dep) = 16105 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.807160E+08 1.807026E+08 %cxline - vtor.gt.vion; vtor,vion = 1.860116E+08 1.851352E+08 %cxline - vtor.gt.vion; vtor,vion = 3.427760E+08 3.391268E+08 %cxline - vtor.gt.vion; vtor,vion = 3.016407E+08 3.001633E+08 %cxline - vtor.gt.vion; vtor,vion = 1.092035E+08 1.080967E+08 %cxline - vtor.gt.vion; vtor,vion = 1.958551E+08 1.955702E+08 %cxline - vtor.gt.vion; vtor,vion = 1.738522E+08 1.708051E+08 %cxline - vtor.gt.vion; vtor,vion = 3.014084E+08 2.998415E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0183E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.819E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.852E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.868E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 61 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 %note: constrained curt @ bdy to: 8758307.67895394 a. %note: constrained curt @ bdy to: 8758307.67895394 a. %note: constrained curt @ bdy to: 8758307.67895394 a. %note: constrained curt @ bdy to: 8758307.67895394 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 8758307.67895394 a. nbstart... %note: constrained curt @ bdy to: 8758307.67895394 a. %note: constrained curt @ bdy to: 8758307.67895394 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.2709E+22 nbi_getprofiles ne*dvol sum (ions): 4.2709E+22 %note: constrained curt @ bdy to: 8758307.67895394 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.813E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.850E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.786E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.804E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6520 - 0 (killed) + 9660 (dep) = 16180 ptcls. %depall specie #2 -> 2935 - 0 (killed) + 13140 (dep) = 16075 ptcls. %depall specie #3 -> 4768 - 0 (killed) + 11289 (dep) = 16057 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 8.838326E+07 8.801926E+07 %cxline - vtor.gt.vion; vtor,vion = 8.828292E+07 8.801926E+07 %cxline - vtor.gt.vion; vtor,vion = 2.128448E+08 2.113965E+08 %orball: in processor 0: orbit # iorb= 874 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.537406E+08 2.524727E+08 %cxline - vtor.gt.vion; vtor,vion = 2.613687E+08 2.603438E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0214E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.796E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.860E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 62 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 %note: constrained curt @ bdy to: 8878372.59085912 a. %note: constrained curt @ bdy to: 8878372.59085912 a. %note: constrained curt @ bdy to: 8878372.59085912 a. nbstart... nbstart... %note: constrained curt @ bdy to: 8878372.59085912 a. nbstart... %note: constrained curt @ bdy to: 8878372.59085912 a. %note: constrained curt @ bdy to: 8878372.59085912 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 8878372.59085912 a. nbstart... nbi_getprofiles ne*dvol sum (input): 4.3748E+22 nbi_getprofiles ne*dvol sum (ions): 4.3748E+22 %note: constrained curt @ bdy to: 8878372.59085912 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.853E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.796E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.823E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6384 - 0 (killed) + 9702 (dep) = 16086 ptcls. %depall specie #2 -> 2799 - 0 (killed) + 13226 (dep) = 16025 ptcls. %depall specie #3 -> 4749 - 0 (killed) + 11305 (dep) = 16054 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.593850E+08 1.593815E+08 %cxline - vtor.gt.vion; vtor,vion = 2.638309E+08 2.630389E+08 %cxline - vtor.gt.vion; vtor,vion = 3.156638E+08 3.124781E+08 %cxline - vtor.gt.vion; vtor,vion = 2.011791E+08 2.007071E+08 %cxline - vtor.gt.vion; vtor,vion = 3.048212E+08 3.040473E+08 %cxline - vtor.gt.vion; vtor,vion = 1.076104E+08 1.056700E+08 %cxline - vtor.gt.vion; vtor,vion = 2.149991E+08 2.149512E+08 %cxline - vtor.gt.vion; vtor,vion = 2.157513E+08 2.157276E+08 %orball: in processor 0: orbit # iorb= 1813 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.822687E+08 2.790191E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0286E+00 %orball: in processor 0: orbit # iorb= 225 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 nbfinish... orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.797E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.866E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 63 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 %note: constrained curt @ bdy to: 9026799.01423141 a. %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... nbi_getprofiles ne*dvol sum (input): 4.4787E+22 nbi_getprofiles ne*dvol sum (ions): 4.4787E+22 %note: constrained curt @ bdy to: 9026799.01423141 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.853E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.797E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.869E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.823E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.806E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6309 - 0 (killed) + 9824 (dep) = 16133 ptcls. %depall specie #2 -> 2742 - 0 (killed) + 13326 (dep) = 16068 ptcls. %depall specie #3 -> 4634 - 0 (killed) + 11452 (dep) = 16086 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.971313E+08 1.950122E+08 %cxline - vtor.gt.vion; vtor,vion = 2.312934E+08 2.289383E+08 %cxline - vtor.gt.vion; vtor,vion = 2.020846E+08 2.007317E+08 %cxline - vtor.gt.vion; vtor,vion = 3.207734E+08 3.168064E+08 %cxline - vtor.gt.vion; vtor,vion = 1.575526E+08 1.560062E+08 %cxline - vtor.gt.vion; vtor,vion = 1.803941E+08 1.792190E+08 %cxline - vtor.gt.vion; vtor,vion = 1.616043E+08 1.605025E+08 %cxline - vtor.gt.vion; vtor,vion = 2.074120E+08 2.051252E+08 %cxline - vtor.gt.vion; vtor,vion = 2.076275E+08 2.051252E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %cxline - vtor.gt.vion; vtor,vion = 3.259123E+08 3.258482E+08 %orball: in processor 0: orbit # iorb= 869 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.438624E+08 2.427165E+08 %cxline - vtor.gt.vion; vtor,vion = 2.411940E+08 2.394536E+08 %cxline - vtor.gt.vion; vtor,vion = 2.021164E+08 2.011109E+08 %cxline - vtor.gt.vion; vtor,vion = 2.012189E+08 2.011109E+08 %cxline - vtor.gt.vion; vtor,vion = 3.137504E+08 3.118844E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.879E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.799E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.863E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 64 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 %note: constrained curt @ bdy to: 9151168.26475604 a. %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... nbi_getprofiles ne*dvol sum (input): 4.5826E+22 nbi_getprofiles ne*dvol sum (ions): 4.5826E+22 %note: constrained curt @ bdy to: 9151168.26475604 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.799E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.871E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6220 - 0 (killed) + 9836 (dep) = 16056 ptcls. %depall specie #2 -> 2708 - 0 (killed) + 13317 (dep) = 16025 ptcls. %depall specie #3 -> 4755 - 0 (killed) + 11325 (dep) = 16080 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.402450E+08 2.396271E+08 %cxline - vtor.gt.vion; vtor,vion = 1.281359E+08 1.256065E+08 %cxline - vtor.gt.vion; vtor,vion = 2.201001E+08 2.200913E+08 %cxline - vtor.gt.vion; vtor,vion = 2.483068E+08 2.478206E+08 %cxline - vtor.gt.vion; vtor,vion = 2.482407E+08 2.478206E+08 %cxline - vtor.gt.vion; vtor,vion = 2.493123E+08 2.479688E+08 %cxline - vtor.gt.vion; vtor,vion = 1.528510E+08 1.511413E+08 %cxline - vtor.gt.vion; vtor,vion = 2.366631E+08 2.351003E+08 %cxline - vtor.gt.vion; vtor,vion = 1.987982E+08 1.986065E+08 %cxline - vtor.gt.vion; vtor,vion = 1.987995E+08 1.986065E+08 %cxline - vtor.gt.vion; vtor,vion = 2.133509E+08 2.120030E+08 %cxline - vtor.gt.vion; vtor,vion = 2.922249E+08 2.894672E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.887E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.863E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 65 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 %note: constrained curt @ bdy to: 9309879.98972233 a. %note: constrained curt @ bdy to: 9309879.98972233 a. %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... nbi_getprofiles ne*dvol sum (input): 4.6865E+22 nbi_getprofiles ne*dvol sum (ions): 4.6865E+22 %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... %note: constrained curt @ bdy to: 9309879.98972233 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.826E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.844E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.858E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6082 - 0 (killed) + 10012 (dep) = 16094 ptcls. %depall specie #2 -> 2562 - 0 (killed) + 13489 (dep) = 16051 ptcls. %depall specie #3 -> 4323 - 0 (killed) + 11681 (dep) = 16004 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.116229E+08 2.114765E+08 %cxline - vtor.gt.vion; vtor,vion = 1.710677E+08 1.710055E+08 %cxline - vtor.gt.vion; vtor,vion = 3.035972E+08 3.029777E+08 %cxline - vtor.gt.vion; vtor,vion = 2.967843E+08 2.965698E+08 %cxline - vtor.gt.vion; vtor,vion = 1.497441E+08 1.466207E+08 %cxline - vtor.gt.vion; vtor,vion = 1.924461E+08 1.903995E+08 %cxline - vtor.gt.vion; vtor,vion = 1.736249E+08 1.730382E+08 %cxline - vtor.gt.vion; vtor,vion = 9.850444E+07 9.827327E+07 %cxline - vtor.gt.vion; vtor,vion = 1.342726E+08 1.342264E+08 %cxline - vtor.gt.vion; vtor,vion = 3.887403E+08 3.881995E+08 %cxline - vtor.gt.vion; vtor,vion = 1.742615E+08 1.738352E+08 %cxline - vtor.gt.vion; vtor,vion = 1.613041E+08 1.607053E+08 %cxline - vtor.gt.vion; vtor,vion = 2.198716E+08 2.198528E+08 %cxline - vtor.gt.vion; vtor,vion = 3.487733E+08 3.483709E+08 %cxline - vtor.gt.vion; vtor,vion = 1.640969E+08 1.634956E+08 %cxline - vtor.gt.vion; vtor,vion = 2.691713E+08 2.641200E+08 %orball: in processor 0: orbit # iorb= 1644 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.101043E+08 2.099694E+08 %cxline - vtor.gt.vion; vtor,vion = 1.799759E+08 1.748590E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.812E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.881E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.864E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 66 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 %note: constrained curt @ bdy to: 9429617.84497176 a. %note: constrained curt @ bdy to: 9429617.84497176 a. %note: constrained curt @ bdy to: 9429617.84497176 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9429617.84497176 a. nbstart... %note: constrained curt @ bdy to: 9429617.84497176 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9429617.84497176 a. nbstart... %note: constrained curt @ bdy to: 9429617.84497176 a. nbi_getprofiles ne*dvol sum (input): 4.7904E+22 nbi_getprofiles ne*dvol sum (ions): 4.7904E+22 nbstart... %note: constrained curt @ bdy to: 9429617.84497176 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.847E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.812E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 6158 - 0 (killed) + 9902 (dep) = 16060 ptcls. %depall specie #2 -> 2579 - 0 (killed) + 13427 (dep) = 16006 ptcls. %depall specie #3 -> 4457 - 0 (killed) + 11562 (dep) = 16019 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %orball: in processor 0: orbit # iorb= 92 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.044964E+08 2.040678E+08 %cxline - vtor.gt.vion; vtor,vion = 5.293905E+08 5.292377E+08 %cxline - vtor.gt.vion; vtor,vion = 1.852361E+08 1.823353E+08 %cxline - vtor.gt.vion; vtor,vion = 1.793259E+08 1.789969E+08 %cxline - vtor.gt.vion; vtor,vion = 5.397829E+08 5.375908E+08 %cxline - vtor.gt.vion; vtor,vion = 1.680632E+08 1.677704E+08 %cxline - vtor.gt.vion; vtor,vion = 1.413268E+08 1.409248E+08 %cxline - vtor.gt.vion; vtor,vion = 4.192516E+08 4.183927E+08 %cxline - vtor.gt.vion; vtor,vion = 4.455406E+07 4.453133E+07 %cxline - vtor.gt.vion; vtor,vion = 4.460883E+07 4.453133E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.812E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.878E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.865E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 67 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 %note: constrained curt @ bdy to: 9587863.60231352 a. %note: constrained curt @ bdy to: 9587863.60231352 a. %note: constrained curt @ bdy to: 9587863.60231352 a. %note: constrained curt @ bdy to: 9587863.60231352 a. nbstart... %note: constrained curt @ bdy to: 9587863.60231352 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 9587863.60231352 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9587863.60231352 a. nbstart... nbi_getprofiles ne*dvol sum (input): 4.8942E+22 nbi_getprofiles ne*dvol sum (ions): 4.8942E+22 %note: constrained curt @ bdy to: 9587863.60231352 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.804E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.851E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.863E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5887 - 0 (killed) + 10131 (dep) = 16018 ptcls. %depall specie #2 -> 2445 - 0 (killed) + 13588 (dep) = 16033 ptcls. %depall specie #3 -> 4194 - 0 (killed) + 11815 (dep) = 16009 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.336456E+08 2.296247E+08 %cxline - vtor.gt.vion; vtor,vion = 2.126714E+08 2.114385E+08 %cxline - vtor.gt.vion; vtor,vion = 1.217489E+08 1.211964E+08 %cxline - vtor.gt.vion; vtor,vion = 1.516696E+08 1.513033E+08 %cxline - vtor.gt.vion; vtor,vion = 3.064437E+08 3.044416E+08 %cxline - vtor.gt.vion; vtor,vion = 1.497842E+08 1.496761E+08 %cxline - vtor.gt.vion; vtor,vion = 2.855828E+08 2.855193E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417523E+08 1.368543E+08 %cxline - vtor.gt.vion; vtor,vion = 1.482746E+08 1.475935E+08 %cxline - vtor.gt.vion; vtor,vion = 1.157955E+08 1.116604E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %cxline - vtor.gt.vion; vtor,vion = 4.074247E+08 4.067890E+08 %cxline - vtor.gt.vion; vtor,vion = 2.895460E+08 2.862910E+08 %cxline - vtor.gt.vion; vtor,vion = 8.722659E+07 8.601647E+07 %cxline - vtor.gt.vion; vtor,vion = 8.759810E+07 8.601647E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 267 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0181E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orball: in processor 0: orbit # iorb= 725 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0192E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.870E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.853E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 68 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 %note: constrained curt @ bdy to: 9710183.85046324 a. %note: constrained curt @ bdy to: 9710183.85046324 a. %note: constrained curt @ bdy to: 9710183.85046324 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9710183.85046324 a. %note: constrained curt @ bdy to: 9710183.85046324 a. %note: constrained curt @ bdy to: 9710183.85046324 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 9710183.85046324 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.9981E+22 nbi_getprofiles ne*dvol sum (ions): 4.9981E+22 %note: constrained curt @ bdy to: 9710183.85046324 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.864E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5948 - 0 (killed) + 10076 (dep) = 16024 ptcls. depall exited 0 orball... %depall specie #2 -> 2418 - 0 (killed) + 13582 (dep) = 16000 ptcls. %depall specie #3 -> 4263 - 0 (killed) + 11740 (dep) = 16003 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 3.467600E+08 3.454182E+08 %cxline - vtor.gt.vion; vtor,vion = 1.235671E+08 1.233712E+08 %cxline - vtor.gt.vion; vtor,vion = 1.235608E+08 1.233712E+08 %cxline - vtor.gt.vion; vtor,vion = 1.545592E+08 1.544865E+08 %cxline - vtor.gt.vion; vtor,vion = 1.403838E+08 1.402042E+08 %cxline - vtor.gt.vion; vtor,vion = 1.432232E+08 1.430877E+08 %cxline - vtor.gt.vion; vtor,vion = 1.319144E+08 1.274835E+08 %cxline - vtor.gt.vion; vtor,vion = 1.350125E+08 1.349870E+08 %cxline - vtor.gt.vion; vtor,vion = 2.608233E+08 2.594023E+08 %orball: in processor 0: orbit # iorb= 458 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.188322E+08 2.184607E+08 %cxline - vtor.gt.vion; vtor,vion = 2.486479E+08 2.472731E+08 %cxline - vtor.gt.vion; vtor,vion = 2.721600E+08 2.714975E+08 %cxline - vtor.gt.vion; vtor,vion = 2.421177E+08 2.403157E+08 %cxline - vtor.gt.vion; vtor,vion = 1.493972E+08 1.480000E+08 %cxline - vtor.gt.vion; vtor,vion = 2.314883E+08 2.303409E+08 %cxline - vtor.gt.vion; vtor,vion = 1.904661E+08 1.888776E+08 %cxline - vtor.gt.vion; vtor,vion = 1.169957E+08 1.146704E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.853E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 69 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 %note: constrained curt @ bdy to: 9868671.44480745 a. %note: constrained curt @ bdy to: 9868671.44480745 a. %note: constrained curt @ bdy to: 9868671.44480745 a. %note: constrained curt @ bdy to: 9868671.44480745 a. nbstart... %note: constrained curt @ bdy to: 9868671.44480745 a. %note: constrained curt @ bdy to: 9868671.44480745 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 9868671.44480745 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.1020E+22 nbi_getprofiles ne*dvol sum (ions): 5.1020E+22 %note: constrained curt @ bdy to: 9868671.44480745 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.802E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.864E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.866E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5889 - 0 (killed) + 10209 (dep) = 16098 ptcls. %depall specie #2 -> 2371 - 0 (killed) + 13681 (dep) = 16052 ptcls. %depall specie #3 -> 4143 - 0 (killed) + 11914 (dep) = 16057 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.011874E+08 1.988385E+08 %cxline - vtor.gt.vion; vtor,vion = 3.844427E+08 3.793778E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957950E+08 2.929361E+08 %cxline - vtor.gt.vion; vtor,vion = 1.683782E+08 1.675577E+08 %cxline - vtor.gt.vion; vtor,vion = 1.614712E+08 1.610727E+08 %cxline - vtor.gt.vion; vtor,vion = 1.659652E+08 1.655755E+08 %cxline - vtor.gt.vion; vtor,vion = 4.032611E+08 4.029928E+08 %cxline - vtor.gt.vion; vtor,vion = 1.275631E+08 1.273881E+08 %cxline - vtor.gt.vion; vtor,vion = 2.236920E+08 2.225486E+08 %cxline - vtor.gt.vion; vtor,vion = 2.647784E+08 2.643615E+08 %cxline - vtor.gt.vion; vtor,vion = 1.442817E+08 1.422512E+08 %cxline - vtor.gt.vion; vtor,vion = 1.523350E+08 1.518560E+08 %cxline - vtor.gt.vion; vtor,vion = 1.531301E+08 1.523890E+08 %cxline - vtor.gt.vion; vtor,vion = 3.299465E+08 3.298533E+08 %cxline - vtor.gt.vion; vtor,vion = 1.585514E+08 1.559829E+08 %cxline - vtor.gt.vion; vtor,vion = 2.539661E+08 2.529964E+08 %cxline - vtor.gt.vion; vtor,vion = 1.409036E+08 1.408619E+08 %cxline - vtor.gt.vion; vtor,vion = 1.654130E+08 1.651422E+08 %cxline - vtor.gt.vion; vtor,vion = 4.693960E+08 4.685676E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0170E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.856E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 70 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 %note: constrained curt @ bdy to: 9990737.95878013 a. %note: constrained curt @ bdy to: 9990737.95878013 a. %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... nbstart... %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... nbi_getprofiles ne*dvol sum (input): 5.2059E+22 nbi_getprofiles ne*dvol sum (ions): 5.2059E+22 %note: constrained curt @ bdy to: 9990737.95878013 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.805E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.869E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.806E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5782 - 0 (killed) + 10218 (dep) = 16000 ptcls. %depall specie #2 -> 2267 - 0 (killed) + 13733 (dep) = 16000 ptcls. %depall specie #3 -> 4132 - 0 (killed) + 11868 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.205384E+08 1.205239E+08 %cxline - vtor.gt.vion; vtor,vion = 1.443681E+08 1.421968E+08 %cxline - vtor.gt.vion; vtor,vion = 2.712055E+08 2.709957E+08 %cxline - vtor.gt.vion; vtor,vion = 2.006586E+08 1.965478E+08 %cxline - vtor.gt.vion; vtor,vion = 1.531309E+08 1.484394E+08 %cxline - vtor.gt.vion; vtor,vion = 2.964994E+08 2.946707E+08 %cxline - vtor.gt.vion; vtor,vion = 1.470066E+08 1.468861E+08 %cxline - vtor.gt.vion; vtor,vion = 2.160911E+08 2.147591E+08 %cxline - vtor.gt.vion; vtor,vion = 2.448612E+08 2.435112E+08 %cxline - vtor.gt.vion; vtor,vion = 1.066092E+08 1.050018E+08 %cxline - vtor.gt.vion; vtor,vion = 1.966000E+08 1.964543E+08 %cxline - vtor.gt.vion; vtor,vion = 1.514796E+08 1.495842E+08 %cxline - vtor.gt.vion; vtor,vion = 3.676718E+08 3.628597E+08 %cxline - vtor.gt.vion; vtor,vion = 1.914402E+08 1.909608E+08 %cxline - vtor.gt.vion; vtor,vion = 2.829247E+08 2.826775E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %cxline - vtor.gt.vion; vtor,vion = 2.882327E+08 2.872780E+08 %orball: in processor 0: orbit # iorb= 1903 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 927 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.838E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.806E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.856E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 71 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... %note: constrained curt @ bdy to: 10150523.9506431 a. %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... %note: constrained curt @ bdy to: 10150523.9506431 a. nbi_getprofiles ne*dvol sum (input): 5.3098E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.3098E+22 %note: constrained curt @ bdy to: 10150523.9506431 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.853E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.845E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.806E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5598 - 0 (killed) + 10462 (dep) = 16060 ptcls. %depall specie #2 -> 2191 - 0 (killed) + 13863 (dep) = 16054 ptcls. %depall specie #3 -> 3879 - 0 (killed) + 12158 (dep) = 16037 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 2.967865E+08 2.966563E+08 %cxline - vtor.gt.vion; vtor,vion = 1.299286E+08 1.297938E+08 %cxline - vtor.gt.vion; vtor,vion = 2.326420E+08 2.304999E+08 %cxline - vtor.gt.vion; vtor,vion = 1.730242E+08 1.722823E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %cxline - vtor.gt.vion; vtor,vion = 1.989417E+08 1.960430E+08 %cxline - vtor.gt.vion; vtor,vion = 3.235039E+08 3.189475E+08 %cxline - vtor.gt.vion; vtor,vion = 3.044879E+08 3.040419E+08 %cxline - vtor.gt.vion; vtor,vion = 2.535424E+08 2.512640E+08 %cxline - vtor.gt.vion; vtor,vion = 6.193677E+07 6.114134E+07 %cxline - vtor.gt.vion; vtor,vion = 1.638019E+08 1.636345E+08 %cxline - vtor.gt.vion; vtor,vion = 2.078693E+08 2.073552E+08 %cxline - vtor.gt.vion; vtor,vion = 2.178310E+08 2.167036E+08 %cxline - vtor.gt.vion; vtor,vion = 2.900362E+08 2.880461E+08 %cxline - vtor.gt.vion; vtor,vion = 2.403543E+08 2.378225E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.855E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 72 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.4136E+22 nbi_getprofiles ne*dvol sum (ions): 5.4136E+22 %note: constrained curt @ bdy to: 10273704.7470408 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.830E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.809E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.848E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.848E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5680 - 0 (killed) + 10340 (dep) = 16020 ptcls. %depall specie #2 -> 2284 - 0 (killed) + 13719 (dep) = 16003 ptcls. %depall specie #3 -> 3977 - 0 (killed) + 12023 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.934665E+08 1.913672E+08 %cxline - vtor.gt.vion; vtor,vion = 3.471240E+08 3.424645E+08 %cxline - vtor.gt.vion; vtor,vion = 6.892016E+07 6.648022E+07 %cxline - vtor.gt.vion; vtor,vion = 1.354324E+08 1.339347E+08 %cxline - vtor.gt.vion; vtor,vion = 1.158648E+08 1.148152E+08 %cxline - vtor.gt.vion; vtor,vion = 3.054457E+08 3.051732E+08 %cxline - vtor.gt.vion; vtor,vion = 2.699652E+08 2.652261E+08 %cxline - vtor.gt.vion; vtor,vion = 3.388288E+08 3.382605E+08 %cxline - vtor.gt.vion; vtor,vion = 1.327072E+08 1.326893E+08 %cxline - vtor.gt.vion; vtor,vion = 1.291936E+08 1.286393E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0224E+00 %orball: in processor 0: orbit # iorb= 69 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.831E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.855E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 73 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.5175E+22 nbi_getprofiles ne*dvol sum (ions): 5.5175E+22 %note: constrained curt @ bdy to: 10431865.4372914 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.827E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.856E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.868E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5580 - 0 (killed) + 10487 (dep) = 16067 ptcls. %depall specie #2 -> 2183 - 0 (killed) + 13852 (dep) = 16035 ptcls. %depall specie #3 -> 3877 - 0 (killed) + 12171 (dep) = 16048 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.154922E+08 2.147023E+08 %cxline - vtor.gt.vion; vtor,vion = 2.757685E+08 2.754778E+08 %cxline - vtor.gt.vion; vtor,vion = 2.985928E+08 2.978757E+08 %cxline - vtor.gt.vion; vtor,vion = 2.788074E+08 2.767160E+08 %cxline - vtor.gt.vion; vtor,vion = 4.964338E+08 4.954807E+08 %cxline - vtor.gt.vion; vtor,vion = 1.842525E+08 1.824961E+08 %cxline - vtor.gt.vion; vtor,vion = 3.240755E+08 3.220272E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.795E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.812E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.846E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 74 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 %note: constrained curt @ bdy to: 10554439.0486430 a. %note: constrained curt @ bdy to: 10554439.0486430 a. %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... nbi_getprofiles ne*dvol sum (input): 5.6214E+22 nbi_getprofiles ne*dvol sum (ions): 5.6214E+22 %note: constrained curt @ bdy to: 10554439.0486430 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.774E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.755E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.788E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.829E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.826E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5569 - 0 (killed) + 10431 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %depall specie #2 -> 2113 - 0 (killed) + 13887 (dep) = 16000 ptcls. %depall specie #3 -> 3807 - 0 (killed) + 12193 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... %orball: in processor 0: orbit # iorb= 11 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.270488E+08 2.261594E+08 %cxline - vtor.gt.vion; vtor,vion = 1.532204E+08 1.526960E+08 %cxline - vtor.gt.vion; vtor,vion = 6.452506E+07 6.396752E+07 %cxline - vtor.gt.vion; vtor,vion = 6.413245E+07 6.396752E+07 %cxline - vtor.gt.vion; vtor,vion = 6.911282E+07 6.893495E+07 %cxline - vtor.gt.vion; vtor,vion = 6.938543E+07 6.893495E+07 %cxline - vtor.gt.vion; vtor,vion = 1.422665E+08 1.421795E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %cxline - vtor.gt.vion; vtor,vion = 3.302331E+08 3.235546E+08 %cxline - vtor.gt.vion; vtor,vion = 3.717850E+08 3.648350E+08 %cxline - vtor.gt.vion; vtor,vion = 1.822614E+08 1.816712E+08 %cxline - vtor.gt.vion; vtor,vion = 1.765282E+08 1.764386E+08 %cxline - vtor.gt.vion; vtor,vion = 1.107107E+08 1.098738E+08 %orball: in processor 0: orbit # iorb= 1910 never inside plasma. %orball: in processor 0: orbit # iorb= 2019 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orball: in processor 0: orbit # iorb= 158 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orball: in processor 0: orbit # iorb= 172 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.789E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.770E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.841E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.813E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.854E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 75 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 %note: constrained curt @ bdy to: 10713251.3392643 a. %note: constrained curt @ bdy to: 10713251.3392643 a. nbstart... %note: constrained curt @ bdy to: 10713251.3392643 a. %note: constrained curt @ bdy to: 10713251.3392643 a. nbstart... %note: constrained curt @ bdy to: 10713251.3392643 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10713251.3392643 a. %note: constrained curt @ bdy to: 10713251.3392643 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7253E+22 nbi_getprofiles ne*dvol sum (ions): 5.7253E+22 %note: constrained curt @ bdy to: 10713251.3392643 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.848E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.837E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.773E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.805E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5365 - 0 (killed) + 10676 (dep) = 16041 ptcls. %depall specie #2 -> 2062 - 0 (killed) + 13986 (dep) = 16048 ptcls. %depall specie #3 -> 3679 - 0 (killed) + 12376 (dep) = 16055 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.511265E+08 2.461193E+08 %cxline - vtor.gt.vion; vtor,vion = 1.213646E+08 1.144500E+08 %cxline - vtor.gt.vion; vtor,vion = 1.212314E+08 1.144500E+08 %cxline - vtor.gt.vion; vtor,vion = 1.162676E+08 1.145796E+08 %cxline - vtor.gt.vion; vtor,vion = 1.153796E+08 1.145796E+08 %cxline - vtor.gt.vion; vtor,vion = 1.582588E+08 1.569680E+08 %cxline - vtor.gt.vion; vtor,vion = 2.152994E+08 2.081615E+08 %cxline - vtor.gt.vion; vtor,vion = 1.046971E+08 1.034917E+08 %cxline - vtor.gt.vion; vtor,vion = 2.743168E+08 2.730145E+08 %cxline - vtor.gt.vion; vtor,vion = 2.220390E+08 2.210357E+08 %cxline - vtor.gt.vion; vtor,vion = 2.097602E+08 2.087160E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957391E+08 2.941689E+08 %cxline - vtor.gt.vion; vtor,vion = 1.386742E+08 1.347145E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %cxline - vtor.gt.vion; vtor,vion = 9.189755E+07 8.931355E+07 %cxline - vtor.gt.vion; vtor,vion = 2.420227E+08 2.403754E+08 %cxline - vtor.gt.vion; vtor,vion = 1.178466E+08 1.170689E+08 %cxline - vtor.gt.vion; vtor,vion = 4.953848E+07 4.679029E+07 %cxline - vtor.gt.vion; vtor,vion = 3.011734E+08 2.991431E+08 %cxline - vtor.gt.vion; vtor,vion = 1.338408E+08 1.333543E+08 %cxline - vtor.gt.vion; vtor,vion = 2.267074E+08 2.261588E+08 %cxline - vtor.gt.vion; vtor,vion = 3.061385E+08 3.025288E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.800E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.852E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.781E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.813E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.851E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 76 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 %note: constrained curt @ bdy to: 10836091.6592090 a. %note: constrained curt @ bdy to: 10836091.6592090 a. %note: constrained curt @ bdy to: 10836091.6592090 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10836091.6592090 a. %note: constrained curt @ bdy to: 10836091.6592090 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10836091.6592090 a. nbstart... %note: constrained curt @ bdy to: 10836091.6592090 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.8292E+22 nbi_getprofiles ne*dvol sum (ions): 5.8292E+22 %note: constrained curt @ bdy to: 10836091.6592090 a. nbstart... %nbi_states: cpu 6 virtual memory size = 1.859E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.803E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.784E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.816E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.851E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5400 - 0 (killed) + 10649 (dep) = 16049 ptcls. %depall specie #2 -> 2026 - 0 (killed) + 13986 (dep) = 16012 ptcls. %depall specie #3 -> 3705 - 0 (killed) + 12322 (dep) = 16027 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.161027E+08 1.130068E+08 %cxline - vtor.gt.vion; vtor,vion = 1.603898E+08 1.596392E+08 %cxline - vtor.gt.vion; vtor,vion = 1.605537E+08 1.596392E+08 %cxline - vtor.gt.vion; vtor,vion = 7.361087E+07 7.353114E+07 %cxline - vtor.gt.vion; vtor,vion = 1.331581E+08 1.326539E+08 %cxline - vtor.gt.vion; vtor,vion = 1.523810E+08 1.522017E+08 %cxline - vtor.gt.vion; vtor,vion = 1.396230E+08 1.385403E+08 %cxline - vtor.gt.vion; vtor,vion = 1.395010E+08 1.385403E+08 %cxline - vtor.gt.vion; vtor,vion = 2.753654E+08 2.737110E+08 %cxline - vtor.gt.vion; vtor,vion = 1.224827E+08 1.206168E+08 %cxline - vtor.gt.vion; vtor,vion = 1.630719E+08 1.630099E+08 %cxline - vtor.gt.vion; vtor,vion = 2.450258E+08 2.402379E+08 %cxline - vtor.gt.vion; vtor,vion = 2.451653E+08 2.402379E+08 %orball: in processor 0: orbit # iorb= 913 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.303275E+08 1.290666E+08 %cxline - vtor.gt.vion; vtor,vion = 2.697758E+08 2.696474E+08 %cxline - vtor.gt.vion; vtor,vion = 1.563297E+08 1.561097E+08 %cxline - vtor.gt.vion; vtor,vion = 3.076384E+08 3.042934E+08 %cxline - vtor.gt.vion; vtor,vion = 3.499288E+08 3.427707E+08 %cxline - vtor.gt.vion; vtor,vion = 3.768945E+08 3.736433E+08 %cxline - vtor.gt.vion; vtor,vion = 2.822793E+08 2.815536E+08 %orball: in processor 0: orbit # iorb= 1909 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.862E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 77 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 %note: constrained curt @ bdy to: 10973035.4238162 a. %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... %note: constrained curt @ bdy to: 10973035.4238162 a. %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... nbstart... %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.9331E+22 nbi_getprofiles ne*dvol sum (ions): 5.9331E+22 %note: constrained curt @ bdy to: 10973035.4238162 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.792E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.825E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5356 - 0 (killed) + 10671 (dep) = 16027 ptcls. %depall specie #2 -> 1959 - 0 (killed) + 14046 (dep) = 16005 ptcls. %depall specie #3 -> 3591 - 0 (killed) + 12409 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.278828E+08 1.273536E+08 %cxline - vtor.gt.vion; vtor,vion = 1.235417E+08 1.205245E+08 %cxline - vtor.gt.vion; vtor,vion = 2.614953E+08 2.607293E+08 %cxline - vtor.gt.vion; vtor,vion = 2.735320E+08 2.714484E+08 %cxline - vtor.gt.vion; vtor,vion = 2.600590E+08 2.597780E+08 %cxline - vtor.gt.vion; vtor,vion = 6.180629E+07 6.072058E+07 %cxline - vtor.gt.vion; vtor,vion = 1.478268E+08 1.453676E+08 %cxline - vtor.gt.vion; vtor,vion = 1.484509E+08 1.482356E+08 %cxline - vtor.gt.vion; vtor,vion = 1.484524E+08 1.482356E+08 %cxline - vtor.gt.vion; vtor,vion = 2.333089E+08 2.319425E+08 %cxline - vtor.gt.vion; vtor,vion = 8.110516E+07 8.026789E+07 %cxline - vtor.gt.vion; vtor,vion = 2.122707E+08 2.117290E+08 %cxline - vtor.gt.vion; vtor,vion = 2.242443E+08 2.240539E+08 %cxline - vtor.gt.vion; vtor,vion = 1.988840E+08 1.955350E+08 %cxline - vtor.gt.vion; vtor,vion = 8.580890E+07 8.515428E+07 %cxline - vtor.gt.vion; vtor,vion = 7.968112E+07 7.606050E+07 %cxline - vtor.gt.vion; vtor,vion = 7.715226E+07 7.606050E+07 %cxline - vtor.gt.vion; vtor,vion = 2.627514E+08 2.616320E+08 %cxline - vtor.gt.vion; vtor,vion = 2.088615E+08 2.065262E+08 %cxline - vtor.gt.vion; vtor,vion = 6.646776E+07 6.554008E+07 %cxline - vtor.gt.vion; vtor,vion = 1.547527E+08 1.543105E+08 %cxline - vtor.gt.vion; vtor,vion = 2.441602E+08 2.438409E+08 %cxline - vtor.gt.vion; vtor,vion = 8.269196E+07 8.206294E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0177E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0185E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.864E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.836E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.862E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.866E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 78 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 %note: constrained curt @ bdy to: 11113736.1459205 a. %note: constrained curt @ bdy to: 11113736.1459205 a. nbstart... %note: constrained curt @ bdy to: 11113736.1459205 a. %note: constrained curt @ bdy to: 11113736.1459205 a. %note: constrained curt @ bdy to: 11113736.1459205 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 11113736.1459205 a. %note: constrained curt @ bdy to: 11113736.1459205 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0369E+22 nbi_getprofiles ne*dvol sum (ions): 6.0369E+22 %note: constrained curt @ bdy to: 11113736.1459205 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.793E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.825E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.811E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.857E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5050 - 0 (killed) + 10984 (dep) = 16034 ptcls. %depall specie #2 -> 1959 - 0 (killed) + 14102 (dep) = 16061 ptcls. %depall specie #3 -> 3648 - 0 (killed) + 12465 (dep) = 16113 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.428863E+08 1.408472E+08 %cxline - vtor.gt.vion; vtor,vion = 8.020929E+07 8.008592E+07 %cxline - vtor.gt.vion; vtor,vion = 8.266764E+07 8.265492E+07 %cxline - vtor.gt.vion; vtor,vion = 1.172758E+08 1.164427E+08 %cxline - vtor.gt.vion; vtor,vion = 2.374934E+08 2.328758E+08 %cxline - vtor.gt.vion; vtor,vion = 1.834850E+08 1.832097E+08 %orball: in processor 0: orbit # iorb= 395 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.056424E+08 1.035495E+08 %cxline - vtor.gt.vion; vtor,vion = 1.578790E+08 1.558453E+08 %cxline - vtor.gt.vion; vtor,vion = 8.467980E+07 8.166726E+07 %cxline - vtor.gt.vion; vtor,vion = 3.771850E+08 3.751438E+08 %cxline - vtor.gt.vion; vtor,vion = 2.434622E+08 2.428695E+08 %cxline - vtor.gt.vion; vtor,vion = 3.789526E+08 3.730922E+08 %cxline - vtor.gt.vion; vtor,vion = 2.688380E+08 2.687986E+08 %cxline - vtor.gt.vion; vtor,vion = 2.259609E+08 2.248616E+08 %cxline - vtor.gt.vion; vtor,vion = 1.064455E+08 1.033606E+08 %cxline - vtor.gt.vion; vtor,vion = 2.664716E+08 2.662314E+08 %cxline - vtor.gt.vion; vtor,vion = 1.085034E+08 1.025594E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 36 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0211E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.796E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.814E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.869E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.828E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 79 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 %note: constrained curt @ bdy to: 11261572.2390605 a. %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... %note: constrained curt @ bdy to: 11261572.2390605 a. %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.1408E+22 nbi_getprofiles ne*dvol sum (ions): 6.1408E+22 %note: constrained curt @ bdy to: 11261572.2390605 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.799E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.831E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.813E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.881E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5285 - 0 (killed) + 10756 (dep) = 16041 ptcls. %depall specie #2 -> 1850 - 0 (killed) + 14150 (dep) = 16000 ptcls. %depall specie #3 -> 3597 - 0 (killed) + 12403 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.512046E+08 1.511084E+08 %cxline - vtor.gt.vion; vtor,vion = 1.534180E+08 1.520142E+08 %cxline - vtor.gt.vion; vtor,vion = 1.508590E+08 1.499822E+08 %cxline - vtor.gt.vion; vtor,vion = 2.115664E+08 2.111141E+08 %cxline - vtor.gt.vion; vtor,vion = 2.112956E+08 2.111141E+08 %cxline - vtor.gt.vion; vtor,vion = 3.278676E+08 3.275757E+08 %cxline - vtor.gt.vion; vtor,vion = 2.896044E+08 2.885609E+08 %cxline - vtor.gt.vion; vtor,vion = 1.566807E+08 1.547025E+08 %cxline - vtor.gt.vion; vtor,vion = 1.834532E+08 1.830489E+08 %cxline - vtor.gt.vion; vtor,vion = 8.438478E+07 8.273612E+07 %cxline - vtor.gt.vion; vtor,vion = 1.102006E+08 1.065496E+08 %cxline - vtor.gt.vion; vtor,vion = 2.155612E+08 2.144988E+08 %cxline - vtor.gt.vion; vtor,vion = 2.152336E+08 2.144988E+08 %cxline - vtor.gt.vion; vtor,vion = 1.757070E+08 1.748942E+08 %orball: in processor 0: orbit # iorb= 1327 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.245377E+08 2.180452E+08 %cxline - vtor.gt.vion; vtor,vion = 3.542779E+08 3.539632E+08 %cxline - vtor.gt.vion; vtor,vion = 1.248854E+08 1.220612E+08 %cxline - vtor.gt.vion; vtor,vion = 1.198793E+08 1.196081E+08 %cxline - vtor.gt.vion; vtor,vion = 1.158597E+08 1.134348E+08 %cxline - vtor.gt.vion; vtor,vion = 1.151909E+08 1.134348E+08 %cxline - vtor.gt.vion; vtor,vion = 2.392543E+08 2.371164E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %cxline - vtor.gt.vion; vtor,vion = 2.776448E+08 2.762988E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 804 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.807E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.878E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.821E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.839E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 80 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 %note: constrained curt @ bdy to: 11420145.2234659 a. %note: constrained curt @ bdy to: 11420145.2234659 a. nbstart... %note: constrained curt @ bdy to: 11420145.2234659 a. %note: constrained curt @ bdy to: 11420145.2234659 a. %note: constrained curt @ bdy to: 11420145.2234659 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11420145.2234659 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 11420145.2234659 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.2447E+22 nbi_getprofiles ne*dvol sum (ions): 6.2447E+22 %note: constrained curt @ bdy to: 11420145.2234659 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.810E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.842E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.824E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.873E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5145 - 0 (killed) + 10924 (dep) = 16069 ptcls. %depall specie #2 -> 1863 - 0 (killed) + 14186 (dep) = 16049 ptcls. %depall specie #3 -> 3411 - 0 (killed) + 12625 (dep) = 16036 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.735079E+08 1.710486E+08 %cxline - vtor.gt.vion; vtor,vion = 1.714877E+08 1.710486E+08 %cxline - vtor.gt.vion; vtor,vion = 2.561035E+08 2.557430E+08 %cxline - vtor.gt.vion; vtor,vion = 1.142393E+08 1.130436E+08 %cxline - vtor.gt.vion; vtor,vion = 1.395495E+08 1.385045E+08 %cxline - vtor.gt.vion; vtor,vion = 3.304802E+08 3.299359E+08 %cxline - vtor.gt.vion; vtor,vion = 2.729280E+08 2.723550E+08 %cxline - vtor.gt.vion; vtor,vion = 5.374858E+08 5.357581E+08 %cxline - vtor.gt.vion; vtor,vion = 1.230824E+08 1.219694E+08 %cxline - vtor.gt.vion; vtor,vion = 1.178113E+08 1.175460E+08 %cxline - vtor.gt.vion; vtor,vion = 1.044757E+08 1.014027E+08 %cxline - vtor.gt.vion; vtor,vion = 1.233343E+08 1.224052E+08 %cxline - vtor.gt.vion; vtor,vion = 2.103455E+08 2.102826E+08 %cxline - vtor.gt.vion; vtor,vion = 2.506991E+08 2.505128E+08 %cxline - vtor.gt.vion; vtor,vion = 2.600313E+08 2.599217E+08 %cxline - vtor.gt.vion; vtor,vion = 2.600925E+08 2.599217E+08 %cxline - vtor.gt.vion; vtor,vion = 1.401456E+08 1.396722E+08 %cxline - vtor.gt.vion; vtor,vion = 1.409900E+08 1.396722E+08 %cxline - vtor.gt.vion; vtor,vion = 2.033986E+08 2.026133E+08 %cxline - vtor.gt.vion; vtor,vion = 2.041136E+08 2.026133E+08 %cxline - vtor.gt.vion; vtor,vion = 2.066536E+08 2.055540E+08 %cxline - vtor.gt.vion; vtor,vion = 6.567754E+07 6.379691E+07 %cxline - vtor.gt.vion; vtor,vion = 6.615827E+07 6.379691E+07 %cxline - vtor.gt.vion; vtor,vion = 3.702424E+08 3.699493E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124063E+08 2.112616E+08 %cxline - vtor.gt.vion; vtor,vion = 6.148055E+07 5.982508E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0212E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.889E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.818E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.895E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.850E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.898E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.892E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 81 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 %note: constrained curt @ bdy to: 11542570.4110216 a. %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... %note: constrained curt @ bdy to: 11542570.4110216 a. %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.3486E+22 nbi_getprofiles ne*dvol sum (ions): 6.3486E+22 %note: constrained curt @ bdy to: 11542570.4110216 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.885E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.835E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.903E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.821E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5098 - 0 (killed) + 10960 (dep) = 16058 ptcls. %depall specie #2 -> 1805 - 0 (killed) + 14217 (dep) = 16022 ptcls. %depall specie #3 -> 3412 - 0 (killed) + 12629 (dep) = 16041 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.477508E+08 1.426979E+08 %cxline - vtor.gt.vion; vtor,vion = 8.268291E+07 8.204661E+07 %cxline - vtor.gt.vion; vtor,vion = 8.017860E+07 7.897800E+07 %cxline - vtor.gt.vion; vtor,vion = 8.446026E+07 7.897800E+07 %cxline - vtor.gt.vion; vtor,vion = 8.469370E+07 7.897800E+07 %cxline - vtor.gt.vion; vtor,vion = 8.116744E+07 7.733468E+07 %cxline - vtor.gt.vion; vtor,vion = 8.087388E+07 7.733468E+07 %cxline - vtor.gt.vion; vtor,vion = 8.355250E+07 7.990183E+07 %cxline - vtor.gt.vion; vtor,vion = 8.334510E+07 7.990183E+07 %cxline - vtor.gt.vion; vtor,vion = 8.180202E+07 7.916651E+07 %cxline - vtor.gt.vion; vtor,vion = 8.253147E+07 7.916651E+07 %cxline - vtor.gt.vion; vtor,vion = 8.448065E+07 7.853269E+07 %cxline - vtor.gt.vion; vtor,vion = 8.487577E+07 7.853269E+07 %cxline - vtor.gt.vion; vtor,vion = 8.661901E+07 8.009939E+07 %cxline - vtor.gt.vion; vtor,vion = 8.579006E+07 8.009939E+07 %cxline - vtor.gt.vion; vtor,vion = 8.724558E+07 7.833301E+07 %cxline - vtor.gt.vion; vtor,vion = 8.652560E+07 7.833301E+07 %cxline - vtor.gt.vion; vtor,vion = 1.544428E+08 1.518435E+08 %cxline - vtor.gt.vion; vtor,vion = 1.609958E+08 1.599170E+08 %cxline - vtor.gt.vion; vtor,vion = 2.207232E+08 2.207229E+08 %cxline - vtor.gt.vion; vtor,vion = 6.414359E+07 6.387191E+07 %cxline - vtor.gt.vion; vtor,vion = 2.373690E+08 2.349763E+08 %cxline - vtor.gt.vion; vtor,vion = 1.092936E+08 1.049164E+08 %cxline - vtor.gt.vion; vtor,vion = 3.505314E+08 3.500146E+08 %cxline - vtor.gt.vion; vtor,vion = 3.506531E+08 3.500146E+08 %cxline - vtor.gt.vion; vtor,vion = 1.132629E+08 1.083632E+08 %cxline - vtor.gt.vion; vtor,vion = 1.137793E+08 1.083632E+08 %cxline - vtor.gt.vion; vtor,vion = 1.040438E+08 1.023234E+08 %cxline - vtor.gt.vion; vtor,vion = 1.224348E+08 1.156051E+08 %cxline - vtor.gt.vion; vtor,vion = 1.217878E+08 1.156051E+08 %cxline - vtor.gt.vion; vtor,vion = 1.288495E+08 1.268418E+08 %cxline - vtor.gt.vion; vtor,vion = 1.448516E+08 1.414933E+08 %cxline - vtor.gt.vion; vtor,vion = 1.225596E+08 1.220328E+08 %cxline - vtor.gt.vion; vtor,vion = 1.242377E+08 1.220328E+08 %cxline - vtor.gt.vion; vtor,vion = 1.055773E+08 1.055511E+08 %cxline - vtor.gt.vion; vtor,vion = 2.855671E+08 2.847237E+08 %cxline - vtor.gt.vion; vtor,vion = 2.849648E+08 2.847237E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.900E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.844E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.906E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.903E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 82 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 %note: constrained curt @ bdy to: 11683450.0396381 a. %note: constrained curt @ bdy to: 11683450.0396381 a. %note: constrained curt @ bdy to: 11683450.0396381 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11683450.0396381 a. %note: constrained curt @ bdy to: 11683450.0396381 a. %note: constrained curt @ bdy to: 11683450.0396381 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 11683450.0396381 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.4525E+22 nbi_getprofiles ne*dvol sum (ions): 6.4525E+22 %note: constrained curt @ bdy to: 11683450.0396381 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.896E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.903E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.832E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.899E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.915E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.847E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5082 - 0 (killed) + 10963 (dep) = 16045 ptcls. %depall specie #2 -> 1770 - 0 (killed) + 14242 (dep) = 16012 ptcls. %depall specie #3 -> 3328 - 0 (killed) + 12679 (dep) = 16007 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.789747E+08 2.779509E+08 %cxline - vtor.gt.vion; vtor,vion = 2.198744E+08 2.156762E+08 %cxline - vtor.gt.vion; vtor,vion = 2.243197E+08 2.240897E+08 %cxline - vtor.gt.vion; vtor,vion = 2.421467E+08 2.420459E+08 %cxline - vtor.gt.vion; vtor,vion = 2.323398E+08 2.306335E+08 %cxline - vtor.gt.vion; vtor,vion = 6.378172E+07 6.170483E+07 %cxline - vtor.gt.vion; vtor,vion = 6.252093E+07 6.170483E+07 %cxline - vtor.gt.vion; vtor,vion = 2.993096E+08 2.953822E+08 %cxline - vtor.gt.vion; vtor,vion = 1.832490E+08 1.829171E+08 %cxline - vtor.gt.vion; vtor,vion = 2.648728E+08 2.648304E+08 %cxline - vtor.gt.vion; vtor,vion = 2.448430E+08 2.429758E+08 %cxline - vtor.gt.vion; vtor,vion = 1.920131E+08 1.918098E+08 %cxline - vtor.gt.vion; vtor,vion = 5.445417E+07 5.434844E+07 %cxline - vtor.gt.vion; vtor,vion = 5.481165E+07 5.434844E+07 %cxline - vtor.gt.vion; vtor,vion = 3.098529E+08 3.095702E+08 %cxline - vtor.gt.vion; vtor,vion = 8.728588E+07 8.706879E+07 %cxline - vtor.gt.vion; vtor,vion = 8.946620E+07 8.706879E+07 %cxline - vtor.gt.vion; vtor,vion = 3.114388E+08 3.112431E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %cxline - vtor.gt.vion; vtor,vion = 2.700570E+08 2.699292E+08 %cxline - vtor.gt.vion; vtor,vion = 2.814774E+08 2.813416E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0167E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orball: in processor 0: orbit # iorb= 170 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.922E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.865E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.917E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.914E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 83 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 %note: constrained curt @ bdy to: 11823239.7810247 a. %note: constrained curt @ bdy to: 11823239.7810247 a. %note: constrained curt @ bdy to: 11823239.7810247 a. %note: constrained curt @ bdy to: 11823239.7810247 a. %note: constrained curt @ bdy to: 11823239.7810247 a. %note: constrained curt @ bdy to: 11823239.7810247 a. nbstart... nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 11823239.7810247 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.5564E+22 nbi_getprofiles ne*dvol sum (ions): 6.5564E+22 %note: constrained curt @ bdy to: 11823239.7810247 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.868E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.907E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.911E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.923E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5014 - 0 (killed) + 10997 (dep) = 16011 ptcls. %depall specie #2 -> 1770 - 0 (killed) + 14239 (dep) = 16009 ptcls. %depall specie #3 -> 3279 - 0 (killed) + 12721 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.689598E+08 1.675708E+08 %cxline - vtor.gt.vion; vtor,vion = 1.774374E+08 1.768653E+08 %cxline - vtor.gt.vion; vtor,vion = 1.127203E+08 1.120962E+08 %cxline - vtor.gt.vion; vtor,vion = 8.812177E+07 8.811250E+07 %cxline - vtor.gt.vion; vtor,vion = 2.593839E+08 2.587826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.387926E+08 1.378322E+08 %cxline - vtor.gt.vion; vtor,vion = 9.248543E+07 8.959414E+07 %cxline - vtor.gt.vion; vtor,vion = 1.771292E+08 1.733999E+08 %cxline - vtor.gt.vion; vtor,vion = 6.769161E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 6.668049E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 7.082359E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 7.154374E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 7.139317E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 7.153359E+07 6.546740E+07 %cxline - vtor.gt.vion; vtor,vion = 2.970437E+08 2.947265E+08 %cxline - vtor.gt.vion; vtor,vion = 6.380969E+08 6.272474E+08 %cxline - vtor.gt.vion; vtor,vion = 6.851103E+07 6.811895E+07 %cxline - vtor.gt.vion; vtor,vion = 6.879248E+07 6.811895E+07 %cxline - vtor.gt.vion; vtor,vion = 8.137544E+07 8.007711E+07 %cxline - vtor.gt.vion; vtor,vion = 8.234728E+07 8.007711E+07 %cxline - vtor.gt.vion; vtor,vion = 1.759001E+08 1.685767E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.911E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.866E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.879E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 84 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 %note: constrained curt @ bdy to: 11964281.5682338 a. %note: constrained curt @ bdy to: 11964281.5682338 a. %note: constrained curt @ bdy to: 11964281.5682338 a. nbstart... nbstart... %note: constrained curt @ bdy to: 11964281.5682338 a. %note: constrained curt @ bdy to: 11964281.5682338 a. %note: constrained curt @ bdy to: 11964281.5682338 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 11964281.5682338 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.6602E+22 nbi_getprofiles ne*dvol sum (ions): 6.6602E+22 %note: constrained curt @ bdy to: 11964281.5682338 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.869E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.840E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.904E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.911E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4848 - 0 (killed) + 11152 (dep) = 16000 ptcls. %depall specie #2 -> 1730 - 0 (killed) + 14282 (dep) = 16012 ptcls. %depall specie #3 -> 3280 - 0 (killed) + 12741 (dep) = 16021 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.261547E+08 2.257520E+08 %cxline - vtor.gt.vion; vtor,vion = 2.100586E+08 2.074762E+08 %cxline - vtor.gt.vion; vtor,vion = 1.778123E+08 1.765161E+08 %cxline - vtor.gt.vion; vtor,vion = 1.268594E+08 1.220255E+08 %cxline - vtor.gt.vion; vtor,vion = 1.317668E+08 1.242729E+08 %cxline - vtor.gt.vion; vtor,vion = 1.341324E+08 1.242729E+08 %cxline - vtor.gt.vion; vtor,vion = 2.479837E+08 2.469028E+08 %cxline - vtor.gt.vion; vtor,vion = 1.088453E+08 1.071481E+08 %cxline - vtor.gt.vion; vtor,vion = 1.472374E+08 1.467081E+08 %cxline - vtor.gt.vion; vtor,vion = 1.182790E+08 1.180182E+08 %cxline - vtor.gt.vion; vtor,vion = 1.978800E+08 1.975746E+08 %cxline - vtor.gt.vion; vtor,vion = 3.397413E+08 3.386100E+08 %cxline - vtor.gt.vion; vtor,vion = 1.803868E+08 1.787044E+08 %cxline - vtor.gt.vion; vtor,vion = 2.204325E+08 2.194953E+08 %cxline - vtor.gt.vion; vtor,vion = 4.054852E+08 3.992527E+08 %cxline - vtor.gt.vion; vtor,vion = 3.372500E+08 3.343395E+08 %cxline - vtor.gt.vion; vtor,vion = 1.044363E+08 1.039763E+08 %cxline - vtor.gt.vion; vtor,vion = 2.841542E+08 2.836926E+08 %cxline - vtor.gt.vion; vtor,vion = 2.170823E+08 2.166054E+08 %cxline - vtor.gt.vion; vtor,vion = 7.468707E+07 7.466235E+07 %cxline - vtor.gt.vion; vtor,vion = 4.587918E+08 4.517330E+08 %cxline - vtor.gt.vion; vtor,vion = 1.934820E+08 1.865538E+08 %cxline - vtor.gt.vion; vtor,vion = 1.920731E+08 1.920302E+08 %cxline - vtor.gt.vion; vtor,vion = 2.746826E+08 2.744222E+08 %cxline - vtor.gt.vion; vtor,vion = 6.607938E+07 6.499600E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orball: in processor 0: orbit # iorb= 101 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.854E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.931E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.917E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 85 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 %note: constrained curt @ bdy to: 12102397.9113852 a. %note: constrained curt @ bdy to: 12102397.9113852 a. %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.7641E+22 nbi_getprofiles ne*dvol sum (ions): 6.7641E+22 %note: constrained curt @ bdy to: 12102397.9113852 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.910E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.858E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4894 - 0 (killed) + 11106 (dep) = 16000 ptcls. %depall specie #2 -> 1698 - 0 (killed) + 14302 (dep) = 16000 ptcls. %depall specie #3 -> 3117 - 0 (killed) + 12883 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.151643E+08 2.145640E+08 %cxline - vtor.gt.vion; vtor,vion = 2.151169E+08 2.145640E+08 %cxline - vtor.gt.vion; vtor,vion = 8.336152E+07 8.056472E+07 %cxline - vtor.gt.vion; vtor,vion = 2.051214E+08 2.046279E+08 %cxline - vtor.gt.vion; vtor,vion = 1.443755E+08 1.442406E+08 %cxline - vtor.gt.vion; vtor,vion = 1.225576E+08 1.170862E+08 %cxline - vtor.gt.vion; vtor,vion = 1.218410E+08 1.214758E+08 %cxline - vtor.gt.vion; vtor,vion = 1.870360E+08 1.870029E+08 %cxline - vtor.gt.vion; vtor,vion = 2.251252E+08 2.159137E+08 %cxline - vtor.gt.vion; vtor,vion = 1.260816E+08 1.200681E+08 %cxline - vtor.gt.vion; vtor,vion = 1.264806E+08 1.200681E+08 %cxline - vtor.gt.vion; vtor,vion = 8.460052E+07 8.387886E+07 %cxline - vtor.gt.vion; vtor,vion = 1.185801E+08 1.184247E+08 %cxline - vtor.gt.vion; vtor,vion = 8.623866E+07 8.499538E+07 %cxline - vtor.gt.vion; vtor,vion = 1.334308E+08 1.323588E+08 %cxline - vtor.gt.vion; vtor,vion = 2.372394E+08 2.325828E+08 %cxline - vtor.gt.vion; vtor,vion = 2.704336E+08 2.682598E+08 %cxline - vtor.gt.vion; vtor,vion = 1.013187E+08 9.926079E+07 %cxline - vtor.gt.vion; vtor,vion = 7.768516E+07 7.507343E+07 %cxline - vtor.gt.vion; vtor,vion = 1.506354E+08 1.505596E+08 %cxline - vtor.gt.vion; vtor,vion = 3.313622E+08 3.299732E+08 %cxline - vtor.gt.vion; vtor,vion = 2.909836E+08 2.856575E+08 %cxline - vtor.gt.vion; vtor,vion = 1.755917E+08 1.743460E+08 %cxline - vtor.gt.vion; vtor,vion = 1.771879E+08 1.743460E+08 %cxline - vtor.gt.vion; vtor,vion = 1.255682E+08 1.251630E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 77 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0211E+00 %orball: in processor 0: orbit # iorb= 34 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0174E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.843E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.924E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.928E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.871E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 86 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 %note: constrained curt @ bdy to: 12255289.6230319 a. %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... %note: constrained curt @ bdy to: 12255289.6230319 a. %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.8680E+22 nbi_getprofiles ne*dvol sum (ions): 6.8680E+22 %note: constrained curt @ bdy to: 12255289.6230319 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.910E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.871E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.843E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4721 - 0 (killed) + 11413 (dep) = 16134 ptcls. %depall specie #2 -> 1616 - 0 (killed) + 14456 (dep) = 16072 ptcls. %depall specie #3 -> 3004 - 0 (killed) + 13117 (dep) = 16121 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 162 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.145747E+08 3.132830E+08 %cxline - vtor.gt.vion; vtor,vion = 4.045890E+08 4.043259E+08 %cxline - vtor.gt.vion; vtor,vion = 5.130451E+08 5.117536E+08 %cxline - vtor.gt.vion; vtor,vion = 8.320594E+07 8.256415E+07 %cxline - vtor.gt.vion; vtor,vion = 8.294760E+07 8.256415E+07 %cxline - vtor.gt.vion; vtor,vion = 2.734155E+08 2.724769E+08 %cxline - vtor.gt.vion; vtor,vion = 2.634977E+08 2.633658E+08 %cxline - vtor.gt.vion; vtor,vion = 2.612276E+08 2.610811E+08 %cxline - vtor.gt.vion; vtor,vion = 1.904351E+08 1.893737E+08 %cxline - vtor.gt.vion; vtor,vion = 4.347104E+08 4.342253E+08 %cxline - vtor.gt.vion; vtor,vion = 1.168789E+08 1.160030E+08 %cxline - vtor.gt.vion; vtor,vion = 2.847192E+08 2.783889E+08 %cxline - vtor.gt.vion; vtor,vion = 2.712148E+08 2.698104E+08 %cxline - vtor.gt.vion; vtor,vion = 2.451465E+08 2.414371E+08 %cxline - vtor.gt.vion; vtor,vion = 4.813224E+08 4.739563E+08 %cxline - vtor.gt.vion; vtor,vion = 8.668824E+07 8.469976E+07 %cxline - vtor.gt.vion; vtor,vion = 9.106516E+07 8.514001E+07 %cxline - vtor.gt.vion; vtor,vion = 9.097422E+07 8.514001E+07 %cxline - vtor.gt.vion; vtor,vion = 1.235361E+08 1.205227E+08 %cxline - vtor.gt.vion; vtor,vion = 1.590118E+08 1.589214E+08 %cxline - vtor.gt.vion; vtor,vion = 1.813612E+08 1.801289E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %cxline - vtor.gt.vion; vtor,vion = 2.134347E+08 2.116935E+08 %cxline - vtor.gt.vion; vtor,vion = 1.266509E+08 1.262183E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 344 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.928E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.916E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.920E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 87 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12360491.3634698 a. %note: constrained curt @ bdy to: 12360491.3634698 a. nbstart... %note: constrained curt @ bdy to: 12360491.3634698 a. %note: constrained curt @ bdy to: 12360491.3634698 a. %note: constrained curt @ bdy to: 12360491.3634698 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12360491.3634698 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12360491.3634698 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12360491.3634698 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.911E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.917E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.929E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4740 - 0 (killed) + 11356 (dep) = 16096 ptcls. %depall specie #2 -> 1616 - 0 (killed) + 14413 (dep) = 16029 ptcls. %depall specie #3 -> 3097 - 0 (killed) + 12977 (dep) = 16074 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.571395E+08 1.556136E+08 %cxline - vtor.gt.vion; vtor,vion = 2.991052E+08 2.961180E+08 %cxline - vtor.gt.vion; vtor,vion = 3.845398E+08 3.829972E+08 %cxline - vtor.gt.vion; vtor,vion = 9.013766E+07 8.983081E+07 %cxline - vtor.gt.vion; vtor,vion = 8.995263E+07 8.983081E+07 %cxline - vtor.gt.vion; vtor,vion = 2.411282E+08 2.398340E+08 %cxline - vtor.gt.vion; vtor,vion = 7.802612E+07 7.681325E+07 %cxline - vtor.gt.vion; vtor,vion = 5.395945E+08 5.325375E+08 %cxline - vtor.gt.vion; vtor,vion = 2.792016E+08 2.789258E+08 %cxline - vtor.gt.vion; vtor,vion = 1.906708E+08 1.854141E+08 %cxline - vtor.gt.vion; vtor,vion = 8.103885E+07 7.654732E+07 %cxline - vtor.gt.vion; vtor,vion = 8.019900E+07 7.654732E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orball: in processor 0: orbit # iorb= 116 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 243 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.857E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.927E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.931E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.928E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.923E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 88 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12542012.9609575 a. %note: constrained curt @ bdy to: 12542012.9609575 a. %note: constrained curt @ bdy to: 12542012.9609575 a. %note: constrained curt @ bdy to: 12542012.9609575 a. %note: constrained curt @ bdy to: 12542012.9609575 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 12542012.9609575 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 12542012.9609575 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12542012.9609575 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.911E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.917E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.875E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.846E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.861E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.929E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4644 - 0 (killed) + 11582 (dep) = 16226 ptcls. %depall specie #2 -> 1586 - 0 (killed) + 14512 (dep) = 16098 ptcls. %depall specie #3 -> 2952 - 0 (killed) + 13219 (dep) = 16171 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.795490E+08 2.785441E+08 %cxline - vtor.gt.vion; vtor,vion = 2.964452E+08 2.921463E+08 %cxline - vtor.gt.vion; vtor,vion = 1.892070E+08 1.865928E+08 %cxline - vtor.gt.vion; vtor,vion = 1.855877E+08 1.835063E+08 %cxline - vtor.gt.vion; vtor,vion = 1.815642E+08 1.814508E+08 %cxline - vtor.gt.vion; vtor,vion = 1.640016E+08 1.633212E+08 %cxline - vtor.gt.vion; vtor,vion = 1.641623E+08 1.633212E+08 %cxline - vtor.gt.vion; vtor,vion = 1.262456E+08 1.255283E+08 %cxline - vtor.gt.vion; vtor,vion = 1.257136E+08 1.255283E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %cxline - vtor.gt.vion; vtor,vion = 2.377326E+08 2.358831E+08 %cxline - vtor.gt.vion; vtor,vion = 8.501016E+07 8.246907E+07 %cxline - vtor.gt.vion; vtor,vion = 8.297357E+07 8.129017E+07 %cxline - vtor.gt.vion; vtor,vion = 1.679324E+08 1.653971E+08 %cxline - vtor.gt.vion; vtor,vion = 2.111277E+08 2.110864E+08 %cxline - vtor.gt.vion; vtor,vion = 2.111692E+08 2.110864E+08 %cxline - vtor.gt.vion; vtor,vion = 2.986664E+08 2.981375E+08 %cxline - vtor.gt.vion; vtor,vion = 2.989114E+08 2.981375E+08 %cxline - vtor.gt.vion; vtor,vion = 1.526208E+08 1.515711E+08 %cxline - vtor.gt.vion; vtor,vion = 5.039294E+07 4.994453E+07 %cxline - vtor.gt.vion; vtor,vion = 8.276899E+07 8.109369E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orball: in processor 0: orbit # iorb= 15 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 142 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orball: in processor 0: orbit # iorb= 382 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.874E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.931E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.937E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 89 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12658599.4063572 a. %note: constrained curt @ bdy to: 12658599.4063572 a. %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12658599.4063572 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.916E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.864E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.932E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4837 - 0 (killed) + 11244 (dep) = 16081 ptcls. %depall specie #2 -> 1611 - 0 (killed) + 14389 (dep) = 16000 ptcls. %depall specie #3 -> 3175 - 0 (killed) + 12866 (dep) = 16041 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 2.382616E+08 2.362907E+08 %cxline - vtor.gt.vion; vtor,vion = 1.040979E+08 1.025321E+08 %cxline - vtor.gt.vion; vtor,vion = 1.783204E+08 1.737727E+08 %cxline - vtor.gt.vion; vtor,vion = 8.849748E+07 8.637385E+07 %cxline - vtor.gt.vion; vtor,vion = 1.453223E+08 1.445731E+08 %cxline - vtor.gt.vion; vtor,vion = 2.054760E+08 2.043049E+08 %cxline - vtor.gt.vion; vtor,vion = 1.145217E+08 1.144891E+08 %cxline - vtor.gt.vion; vtor,vion = 1.131340E+08 1.131340E+08 %cxline - vtor.gt.vion; vtor,vion = 1.221840E+08 1.169624E+08 %cxline - vtor.gt.vion; vtor,vion = 1.204739E+08 1.169624E+08 %cxline - vtor.gt.vion; vtor,vion = 1.868685E+08 1.868396E+08 %cxline - vtor.gt.vion; vtor,vion = 1.869676E+08 1.868396E+08 %cxline - vtor.gt.vion; vtor,vion = 1.775324E+08 1.745166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.162085E+08 1.157378E+08 %cxline - vtor.gt.vion; vtor,vion = 3.769190E+08 3.753852E+08 %cxline - vtor.gt.vion; vtor,vion = 1.899704E+08 1.867430E+08 %cxline - vtor.gt.vion; vtor,vion = 2.188534E+08 2.185109E+08 %cxline - vtor.gt.vion; vtor,vion = 1.570262E+08 1.566429E+08 %cxline - vtor.gt.vion; vtor,vion = 5.668269E+07 4.853038E+07 %cxline - vtor.gt.vion; vtor,vion = 5.630411E+07 4.853038E+07 %cxline - vtor.gt.vion; vtor,vion = 2.715137E+08 2.714748E+08 %cxline - vtor.gt.vion; vtor,vion = 9.977288E+07 9.944706E+07 %cxline - vtor.gt.vion; vtor,vion = 3.533690E+08 3.523816E+08 %cxline - vtor.gt.vion; vtor,vion = 3.529515E+08 3.523816E+08 %cxline - vtor.gt.vion; vtor,vion = 1.982179E+08 1.954152E+08 %cxline - vtor.gt.vion; vtor,vion = 2.441764E+08 2.440550E+08 %cxline - vtor.gt.vion; vtor,vion = 2.381399E+08 2.372071E+08 %cxline - vtor.gt.vion; vtor,vion = 3.959097E+08 3.849365E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0211E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orball: in processor 0: orbit # iorb= 18 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 161 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.864E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.860E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.888E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.937E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.931E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.930E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.923E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 90 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12827373.2107091 a. %note: constrained curt @ bdy to: 12827373.2107091 a. %note: constrained curt @ bdy to: 12827373.2107091 a. %note: constrained curt @ bdy to: 12827373.2107091 a. nbstart... %note: constrained curt @ bdy to: 12827373.2107091 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 12827373.2107091 a. nbstart... %note: constrained curt @ bdy to: 12827373.2107091 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12827373.2107091 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.864E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.849E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.877E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.914E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.916E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.912E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4802 - 0 (killed) + 11298 (dep) = 16100 ptcls. %depall specie #2 -> 1573 - 0 (killed) + 14460 (dep) = 16033 ptcls. %depall specie #3 -> 2968 - 0 (killed) + 13070 (dep) = 16038 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.389858E+08 1.386961E+08 %cxline - vtor.gt.vion; vtor,vion = 2.624120E+08 2.619508E+08 %cxline - vtor.gt.vion; vtor,vion = 2.587591E+08 2.568689E+08 %cxline - vtor.gt.vion; vtor,vion = 1.104912E+08 1.104320E+08 %cxline - vtor.gt.vion; vtor,vion = 2.242951E+08 2.212356E+08 %cxline - vtor.gt.vion; vtor,vion = 2.037895E+08 2.021431E+08 %cxline - vtor.gt.vion; vtor,vion = 1.147244E+08 1.144973E+08 %cxline - vtor.gt.vion; vtor,vion = 1.954177E+08 1.937530E+08 %cxline - vtor.gt.vion; vtor,vion = 1.266595E+08 1.251060E+08 %cxline - vtor.gt.vion; vtor,vion = 3.987907E+08 3.969998E+08 %cxline - vtor.gt.vion; vtor,vion = 2.167794E+08 2.159817E+08 %cxline - vtor.gt.vion; vtor,vion = 2.263062E+08 2.258423E+08 %cxline - vtor.gt.vion; vtor,vion = 1.597511E+08 1.571450E+08 %cxline - vtor.gt.vion; vtor,vion = 1.351123E+08 1.326593E+08 %cxline - vtor.gt.vion; vtor,vion = 1.019689E+08 1.007622E+08 %cxline - vtor.gt.vion; vtor,vion = 9.889339E+07 9.849481E+07 %cxline - vtor.gt.vion; vtor,vion = 9.903423E+07 9.849481E+07 %cxline - vtor.gt.vion; vtor,vion = 2.404774E+08 2.391328E+08 %cxline - vtor.gt.vion; vtor,vion = 2.397366E+08 2.391328E+08 %cxline - vtor.gt.vion; vtor,vion = 2.884767E+08 2.881650E+08 %cxline - vtor.gt.vion; vtor,vion = 2.883666E+08 2.881650E+08 %cxline - vtor.gt.vion; vtor,vion = 2.368049E+08 2.349078E+08 %cxline - vtor.gt.vion; vtor,vion = 3.574361E+08 3.556461E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 987 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 214 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 218 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orball: in processor 0: orbit # iorb= 264 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.852E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.929E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.934E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.922E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 91 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12933996.4650717 a. %note: constrained curt @ bdy to: 12933996.4650717 a. %note: constrained curt @ bdy to: 12933996.4650717 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12933996.4650717 a. nbstart... %note: constrained curt @ bdy to: 12933996.4650717 a. %note: constrained curt @ bdy to: 12933996.4650717 a. nbstart... nbstart... %note: constrained curt @ bdy to: 12933996.4650717 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 12933996.4650717 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.852E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.917E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.919E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.935E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4722 - 0 (killed) + 11278 (dep) = 16000 ptcls. %depall specie #2 -> 1602 - 0 (killed) + 14398 (dep) = 16000 ptcls. %depall specie #3 -> 3195 - 0 (killed) + 12805 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.880707E+08 1.843251E+08 %cxline - vtor.gt.vion; vtor,vion = 2.039704E+08 1.981169E+08 %cxline - vtor.gt.vion; vtor,vion = 1.381149E+08 1.347428E+08 %cxline - vtor.gt.vion; vtor,vion = 2.638017E+08 2.632478E+08 %cxline - vtor.gt.vion; vtor,vion = 2.799605E+08 2.784676E+08 %cxline - vtor.gt.vion; vtor,vion = 2.416051E+08 2.382402E+08 %cxline - vtor.gt.vion; vtor,vion = 9.972721E+07 9.691421E+07 %cxline - vtor.gt.vion; vtor,vion = 2.825689E+08 2.764441E+08 %cxline - vtor.gt.vion; vtor,vion = 2.851620E+08 2.837273E+08 %cxline - vtor.gt.vion; vtor,vion = 8.720855E+07 8.331724E+07 %cxline - vtor.gt.vion; vtor,vion = 2.820980E+08 2.766977E+08 %cxline - vtor.gt.vion; vtor,vion = 1.972306E+08 1.970565E+08 %cxline - vtor.gt.vion; vtor,vion = 3.023648E+08 3.014188E+08 %cxline - vtor.gt.vion; vtor,vion = 2.200705E+08 2.185681E+08 %cxline - vtor.gt.vion; vtor,vion = 1.481292E+08 1.466603E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 94 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 101 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orball: in processor 0: orbit # iorb= 245 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orball: in processor 0: orbit # iorb= 276 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 nbfinish... orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.934E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.929E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.863E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.891E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.937E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.922E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 92 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %nbi_states: cpu 1 virtual memory size = 1.867E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.852E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.917E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.915E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.919E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4743 - 0 (killed) + 11466 (dep) = 16209 ptcls. %depall specie #2 -> 1573 - 0 (killed) + 14510 (dep) = 16083 ptcls. %depall specie #3 -> 3024 - 0 (killed) + 13110 (dep) = 16134 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.234072E+08 1.201009E+08 %cxline - vtor.gt.vion; vtor,vion = 1.481020E+08 1.464007E+08 %cxline - vtor.gt.vion; vtor,vion = 9.994313E+07 9.991792E+07 %cxline - vtor.gt.vion; vtor,vion = 1.575684E+08 1.550670E+08 %cxline - vtor.gt.vion; vtor,vion = 2.651171E+08 2.624904E+08 %cxline - vtor.gt.vion; vtor,vion = 3.736712E+08 3.736249E+08 %cxline - vtor.gt.vion; vtor,vion = 1.668068E+08 1.586133E+08 %cxline - vtor.gt.vion; vtor,vion = 1.048691E+08 9.793941E+07 %cxline - vtor.gt.vion; vtor,vion = 1.369798E+08 1.369170E+08 %cxline - vtor.gt.vion; vtor,vion = 1.436401E+08 1.419879E+08 %cxline - vtor.gt.vion; vtor,vion = 7.004178E+07 6.900953E+07 %cxline - vtor.gt.vion; vtor,vion = 2.467479E+08 2.462709E+08 %cxline - vtor.gt.vion; vtor,vion = 2.072170E+08 2.056193E+08 %cxline - vtor.gt.vion; vtor,vion = 5.029829E+07 4.845809E+07 %cxline - vtor.gt.vion; vtor,vion = 4.907812E+07 4.845809E+07 %cxline - vtor.gt.vion; vtor,vion = 3.106747E+08 3.083586E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599288E+08 1.594018E+08 %cxline - vtor.gt.vion; vtor,vion = 1.757368E+08 1.726024E+08 %cxline - vtor.gt.vion; vtor,vion = 3.152211E+08 3.147437E+08 %cxline - vtor.gt.vion; vtor,vion = 3.185920E+08 3.147437E+08 %cxline - vtor.gt.vion; vtor,vion = 3.227354E+08 3.223077E+08 %cxline - vtor.gt.vion; vtor,vion = 1.567647E+08 1.566438E+08 %cxline - vtor.gt.vion; vtor,vion = 2.387981E+08 2.380662E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orball: in processor 0: orbit # iorb= 38 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.943E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.937E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.935E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.922E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 93 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13220756.7782048 a. %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... %note: constrained curt @ bdy to: 13220756.7782048 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.922E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.869E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.937E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.919E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.855E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4911 - 0 (killed) + 11134 (dep) = 16045 ptcls. %depall specie #2 -> 1616 - 0 (killed) + 14384 (dep) = 16000 ptcls. %depall specie #3 -> 3144 - 0 (killed) + 12856 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.293058E+08 3.242609E+08 %cxline - vtor.gt.vion; vtor,vion = 2.186468E+08 2.154902E+08 %cxline - vtor.gt.vion; vtor,vion = 2.443840E+08 2.380032E+08 %cxline - vtor.gt.vion; vtor,vion = 2.438134E+08 2.380032E+08 %cxline - vtor.gt.vion; vtor,vion = 6.536561E+07 6.207498E+07 %cxline - vtor.gt.vion; vtor,vion = 2.121842E+08 2.102100E+08 %cxline - vtor.gt.vion; vtor,vion = 1.218669E+08 1.174624E+08 %cxline - vtor.gt.vion; vtor,vion = 1.251403E+08 1.174624E+08 %cxline - vtor.gt.vion; vtor,vion = 1.179396E+08 1.156979E+08 %cxline - vtor.gt.vion; vtor,vion = 1.185451E+08 1.173910E+08 %cxline - vtor.gt.vion; vtor,vion = 1.198026E+08 1.173910E+08 %cxline - vtor.gt.vion; vtor,vion = 6.735263E+07 6.381910E+07 %cxline - vtor.gt.vion; vtor,vion = 6.567285E+07 6.381910E+07 %cxline - vtor.gt.vion; vtor,vion = 2.165121E+08 2.164803E+08 %cxline - vtor.gt.vion; vtor,vion = 2.187374E+08 2.178180E+08 %cxline - vtor.gt.vion; vtor,vion = 1.848579E+08 1.825783E+08 %cxline - vtor.gt.vion; vtor,vion = 2.912504E+08 2.907447E+08 %cxline - vtor.gt.vion; vtor,vion = 1.932976E+08 1.928033E+08 %cxline - vtor.gt.vion; vtor,vion = 2.047527E+08 2.023867E+08 %cxline - vtor.gt.vion; vtor,vion = 3.049824E+08 3.002748E+08 %cxline - vtor.gt.vion; vtor,vion = 6.543137E+07 6.158206E+07 %cxline - vtor.gt.vion; vtor,vion = 2.969066E+08 2.873523E+08 %cxline - vtor.gt.vion; vtor,vion = 1.915219E+08 1.914238E+08 %cxline - vtor.gt.vion; vtor,vion = 1.710836E+08 1.699132E+08 %orball: in processor 0: orbit # iorb= 756 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.928949E+08 1.905851E+08 %cxline - vtor.gt.vion; vtor,vion = 2.885641E+08 2.814974E+08 %cxline - vtor.gt.vion; vtor,vion = 2.923277E+08 2.900975E+08 %cxline - vtor.gt.vion; vtor,vion = 2.281278E+08 2.254200E+08 %orball: in processor 0: orbit # iorb= 1036 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.833483E+08 4.828753E+08 %cxline - vtor.gt.vion; vtor,vion = 4.853596E+08 4.828753E+08 %cxline - vtor.gt.vion; vtor,vion = 3.339892E+08 3.329345E+08 %cxline - vtor.gt.vion; vtor,vion = 1.716484E+08 1.708262E+08 %cxline - vtor.gt.vion; vtor,vion = 2.260678E+08 2.257843E+08 %cxline - vtor.gt.vion; vtor,vion = 1.979990E+08 1.972214E+08 %cxline - vtor.gt.vion; vtor,vion = 4.702322E+08 4.618545E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 1728 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.370391E+08 6.243805E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orball: in processor 0: orbit # iorb= 86 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.880E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.925E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.940E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 94 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.922E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.855E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.870E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.883E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.938E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.920E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4754 - 0 (killed) + 11324 (dep) = 16078 ptcls. %depall specie #2 -> 1544 - 0 (killed) + 14496 (dep) = 16040 ptcls. %depall specie #3 -> 3087 - 0 (killed) + 12994 (dep) = 16081 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.233205E+08 2.220064E+08 %cxline - vtor.gt.vion; vtor,vion = 1.113726E+08 1.097456E+08 %cxline - vtor.gt.vion; vtor,vion = 1.308675E+08 1.302556E+08 %cxline - vtor.gt.vion; vtor,vion = 1.367852E+08 1.366510E+08 %cxline - vtor.gt.vion; vtor,vion = 2.545551E+08 2.477574E+08 %cxline - vtor.gt.vion; vtor,vion = 2.492601E+08 2.477574E+08 %cxline - vtor.gt.vion; vtor,vion = 2.489151E+08 2.474683E+08 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.136701E+08 2.134595E+08 %cxline - vtor.gt.vion; vtor,vion = 2.069137E+08 2.059675E+08 %cxline - vtor.gt.vion; vtor,vion = 2.070357E+08 2.059675E+08 %cxline - vtor.gt.vion; vtor,vion = 2.369390E+08 2.328510E+08 %cxline - vtor.gt.vion; vtor,vion = 1.422226E+08 1.416363E+08 %cxline - vtor.gt.vion; vtor,vion = 1.425921E+08 1.416363E+08 %cxline - vtor.gt.vion; vtor,vion = 2.418101E+08 2.397310E+08 %cxline - vtor.gt.vion; vtor,vion = 3.288041E+08 3.263802E+08 %cxline - vtor.gt.vion; vtor,vion = 5.487967E+07 5.439562E+07 %cxline - vtor.gt.vion; vtor,vion = 7.266437E+07 7.237485E+07 %cxline - vtor.gt.vion; vtor,vion = 7.257679E+07 7.237485E+07 %cxline - vtor.gt.vion; vtor,vion = 7.155790E+07 7.140950E+07 %cxline - vtor.gt.vion; vtor,vion = 8.832791E+07 8.771319E+07 %cxline - vtor.gt.vion; vtor,vion = 1.857474E+08 1.855470E+08 %cxline - vtor.gt.vion; vtor,vion = 3.166165E+08 3.140988E+08 %cxline - vtor.gt.vion; vtor,vion = 2.725197E+08 2.708725E+08 %cxline - vtor.gt.vion; vtor,vion = 2.252191E+08 2.205364E+08 %cxline - vtor.gt.vion; vtor,vion = 1.515477E+08 1.452683E+08 %cxline - vtor.gt.vion; vtor,vion = 2.955067E+08 2.912076E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0196E+00 %orball: in processor 0: orbit # iorb= 37 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orball: in processor 0: orbit # iorb= 129 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 338 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.940E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.946E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.928E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.942E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 95 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13505526.9115711 a. %note: constrained curt @ bdy to: 13505526.9115711 a. nbstart... %note: constrained curt @ bdy to: 13505526.9115711 a. nbstart... %note: constrained curt @ bdy to: 13505526.9115711 a. %note: constrained curt @ bdy to: 13505526.9115711 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13505526.9115711 a. %note: constrained curt @ bdy to: 13505526.9115711 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13505526.9115711 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.922E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.941E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.929E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.925E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.886E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4921 - 0 (killed) + 11079 (dep) = 16000 ptcls. %depall specie #2 -> 1637 - 0 (killed) + 14363 (dep) = 16000 ptcls. %depall specie #3 -> 3225 - 0 (killed) + 12775 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.537048E+08 2.520036E+08 %cxline - vtor.gt.vion; vtor,vion = 1.111907E+08 1.066482E+08 %cxline - vtor.gt.vion; vtor,vion = 1.077600E+08 1.066482E+08 %cxline - vtor.gt.vion; vtor,vion = 1.120367E+08 1.050032E+08 %cxline - vtor.gt.vion; vtor,vion = 1.120245E+08 1.050032E+08 %cxline - vtor.gt.vion; vtor,vion = 1.556870E+08 1.529381E+08 %cxline - vtor.gt.vion; vtor,vion = 2.833650E+08 2.797872E+08 %cxline - vtor.gt.vion; vtor,vion = 1.671525E+08 1.670795E+08 %cxline - vtor.gt.vion; vtor,vion = 1.572717E+08 1.565707E+08 %cxline - vtor.gt.vion; vtor,vion = 1.736464E+08 1.730142E+08 %cxline - vtor.gt.vion; vtor,vion = 2.801624E+08 2.766346E+08 %cxline - vtor.gt.vion; vtor,vion = 9.762009E+07 9.708365E+07 %cxline - vtor.gt.vion; vtor,vion = 1.916324E+08 1.892657E+08 %cxline - vtor.gt.vion; vtor,vion = 3.615933E+07 3.496040E+07 %cxline - vtor.gt.vion; vtor,vion = 1.298815E+08 1.270620E+08 %cxline - vtor.gt.vion; vtor,vion = 2.543082E+08 2.460494E+08 %cxline - vtor.gt.vion; vtor,vion = 1.593097E+08 1.588147E+08 %cxline - vtor.gt.vion; vtor,vion = 1.503391E+08 1.416592E+08 %cxline - vtor.gt.vion; vtor,vion = 1.509019E+08 1.416592E+08 %cxline - vtor.gt.vion; vtor,vion = 1.912750E+08 1.900693E+08 %cxline - vtor.gt.vion; vtor,vion = 3.024553E+08 2.969713E+08 %cxline - vtor.gt.vion; vtor,vion = 1.736288E+08 1.713947E+08 %cxline - vtor.gt.vion; vtor,vion = 1.757429E+08 1.713947E+08 %cxline - vtor.gt.vion; vtor,vion = 9.237866E+07 8.698649E+07 %cxline - vtor.gt.vion; vtor,vion = 2.808065E+08 2.720988E+08 %cxline - vtor.gt.vion; vtor,vion = 3.984476E+08 3.978587E+08 %cxline - vtor.gt.vion; vtor,vion = 8.609069E+07 8.238795E+07 %cxline - vtor.gt.vion; vtor,vion = 1.224882E+08 1.187730E+08 %cxline - vtor.gt.vion; vtor,vion = 2.542892E+08 2.536520E+08 %cxline - vtor.gt.vion; vtor,vion = 1.391664E+08 1.379936E+08 %cxline - vtor.gt.vion; vtor,vion = 1.388950E+08 1.379936E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 96 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orball: in processor 0: orbit # iorb= 49 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.884E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.897E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.946E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.929E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.939E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 96 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %nbi_states: cpu 1 virtual memory size = 1.873E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.858E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.929E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.923E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.941E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.926E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.886E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 7.754624661166464E+015 129322196423699. zfext1,zfext2= 1.019276385797978E+018 1.130384890088174E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 7.625302464742765E+015 1.293221964236989E+015 zfext1,zfext2= 1.017983163833741E+018 1.117452670445804E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 6.332080500505776E+015 6.332080500505776E+015 zfext1,zfext2= 1.011651083333235E+018 1.054131865440746E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 4544 - 0 (killed) + 11665 (dep) = 16209 ptcls. %depall specie #2 -> 1559 - 0 (killed) + 14569 (dep) = 16128 ptcls. %depall specie #3 -> 3119 - 0 (killed) + 13131 (dep) = 16250 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 8.960047E+07 8.914787E+07 %cxline - vtor.gt.vion; vtor,vion = 1.134444E+08 1.130824E+08 %cxline - vtor.gt.vion; vtor,vion = 2.652897E+08 2.649667E+08 %cxline - vtor.gt.vion; vtor,vion = 2.283514E+08 2.282292E+08 %cxline - vtor.gt.vion; vtor,vion = 1.520433E+08 1.515854E+08 %cxline - vtor.gt.vion; vtor,vion = 1.521125E+08 1.515854E+08 %cxline - vtor.gt.vion; vtor,vion = 1.514548E+08 1.501391E+08 %cxline - vtor.gt.vion; vtor,vion = 1.507355E+08 1.501391E+08 %cxline - vtor.gt.vion; vtor,vion = 1.761909E+08 1.745957E+08 %cxline - vtor.gt.vion; vtor,vion = 1.629612E+08 1.625546E+08 %cxline - vtor.gt.vion; vtor,vion = 1.642714E+08 1.628730E+08 %cxline - vtor.gt.vion; vtor,vion = 2.510462E+08 2.502262E+08 %cxline - vtor.gt.vion; vtor,vion = 2.681789E+08 2.644021E+08 %cxline - vtor.gt.vion; vtor,vion = 2.678968E+08 2.678962E+08 %cxline - vtor.gt.vion; vtor,vion = 2.199516E+08 2.148615E+08 %cxline - vtor.gt.vion; vtor,vion = 1.460344E+08 1.431370E+08 %cxline - vtor.gt.vion; vtor,vion = 1.438652E+08 1.431370E+08 %cxline - vtor.gt.vion; vtor,vion = 1.595812E+08 1.594706E+08 %cxline - vtor.gt.vion; vtor,vion = 1.516086E+08 1.513652E+08 %cxline - vtor.gt.vion; vtor,vion = 3.257589E+08 3.245445E+08 %cxline - vtor.gt.vion; vtor,vion = 1.633417E+08 1.631301E+08 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 99 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 152 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.886E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.900E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.943E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.945E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.941E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 97 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.925E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.976E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.972E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5067 - 0 (killed) + 11222 (dep) = 16289 ptcls. %depall specie #2 -> 1767 - 0 (killed) + 14300 (dep) = 16067 ptcls. %depall specie #3 -> 3168 - 0 (killed) + 12944 (dep) = 16112 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.311327E+08 1.295632E+08 %cxline - vtor.gt.vion; vtor,vion = 1.692380E+08 1.691000E+08 %cxline - vtor.gt.vion; vtor,vion = 1.377990E+08 1.367752E+08 %cxline - vtor.gt.vion; vtor,vion = 1.376719E+08 1.367752E+08 %cxline - vtor.gt.vion; vtor,vion = 1.309930E+08 1.308104E+08 %cxline - vtor.gt.vion; vtor,vion = 1.764316E+08 1.749547E+08 %cxline - vtor.gt.vion; vtor,vion = 1.963782E+08 1.940737E+08 %cxline - vtor.gt.vion; vtor,vion = 1.100818E+08 1.098089E+08 %cxline - vtor.gt.vion; vtor,vion = 1.099159E+08 1.038437E+08 %cxline - vtor.gt.vion; vtor,vion = 1.089182E+08 1.073218E+08 %cxline - vtor.gt.vion; vtor,vion = 1.304070E+08 1.238631E+08 %cxline - vtor.gt.vion; vtor,vion = 1.263756E+08 1.238631E+08 %cxline - vtor.gt.vion; vtor,vion = 1.170140E+08 1.151534E+08 %cxline - vtor.gt.vion; vtor,vion = 1.149147E+08 1.142076E+08 %cxline - vtor.gt.vion; vtor,vion = 1.163423E+08 1.142076E+08 %cxline - vtor.gt.vion; vtor,vion = 2.732978E+08 2.706130E+08 %cxline - vtor.gt.vion; vtor,vion = 8.757683E+07 8.757272E+07 %cxline - vtor.gt.vion; vtor,vion = 2.807265E+08 2.777174E+08 %cxline - vtor.gt.vion; vtor,vion = 3.847992E+08 3.827294E+08 %cxline - vtor.gt.vion; vtor,vion = 2.231731E+08 2.228955E+08 %cxline - vtor.gt.vion; vtor,vion = 1.963823E+08 1.929959E+08 %cxline - vtor.gt.vion; vtor,vion = 1.208515E+08 1.190845E+08 %cxline - vtor.gt.vion; vtor,vion = 1.217027E+08 1.190845E+08 %cxline - vtor.gt.vion; vtor,vion = 1.563385E+08 1.556011E+08 %cxline - vtor.gt.vion; vtor,vion = 1.899730E+08 1.893212E+08 %cxline - vtor.gt.vion; vtor,vion = 3.425099E+08 3.385188E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 1509 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.400873E+08 2.384012E+08 %cxline - vtor.gt.vion; vtor,vion = 2.198817E+08 2.179131E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %cxline - vtor.gt.vion; vtor,vion = 2.881205E+08 2.874498E+08 %cxline - vtor.gt.vion; vtor,vion = 9.366450E+07 9.347199E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orball: in processor 0: orbit # iorb= 76 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 116 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 167 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0275E+00 %orball: in processor 0: orbit # iorb= 287 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orball: in processor 0: orbit # iorb= 343 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.872E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.949E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.876E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.935E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.941E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.900E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 98 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %nbi_states: cpu 5 virtual memory size = 1.972E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.925E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.976E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4770 - 0 (killed) + 11230 (dep) = 16000 ptcls. %depall specie #2 -> 1592 - 0 (killed) + 14408 (dep) = 16000 ptcls. %depall specie #3 -> 3233 - 0 (killed) + 12767 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.013087E+08 1.012937E+08 %cxline - vtor.gt.vion; vtor,vion = 1.489874E+08 1.449457E+08 %cxline - vtor.gt.vion; vtor,vion = 1.009692E+08 9.794215E+07 %cxline - vtor.gt.vion; vtor,vion = 9.819728E+07 9.794215E+07 %cxline - vtor.gt.vion; vtor,vion = 1.077791E+08 9.819597E+07 %cxline - vtor.gt.vion; vtor,vion = 1.072209E+08 9.819597E+07 %cxline - vtor.gt.vion; vtor,vion = 1.059029E+08 9.819597E+07 %cxline - vtor.gt.vion; vtor,vion = 1.060485E+08 9.819597E+07 %cxline - vtor.gt.vion; vtor,vion = 8.009794E+07 7.364939E+07 %cxline - vtor.gt.vion; vtor,vion = 8.090503E+07 7.364939E+07 %cxline - vtor.gt.vion; vtor,vion = 4.491112E+07 4.349419E+07 %cxline - vtor.gt.vion; vtor,vion = 4.582489E+07 4.349419E+07 %cxline - vtor.gt.vion; vtor,vion = 5.397501E+07 4.349419E+07 %cxline - vtor.gt.vion; vtor,vion = 5.392735E+07 4.349419E+07 %cxline - vtor.gt.vion; vtor,vion = 2.847719E+08 2.841416E+08 %cxline - vtor.gt.vion; vtor,vion = 1.644609E+08 1.614064E+08 %cxline - vtor.gt.vion; vtor,vion = 2.185678E+08 2.119269E+08 %cxline - vtor.gt.vion; vtor,vion = 4.696641E+07 4.674168E+07 %cxline - vtor.gt.vion; vtor,vion = 4.967630E+07 4.674168E+07 %cxline - vtor.gt.vion; vtor,vion = 1.471907E+08 1.419826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.637752E+08 1.618137E+08 %cxline - vtor.gt.vion; vtor,vion = 2.835007E+08 2.820987E+08 %cxline - vtor.gt.vion; vtor,vion = 2.831067E+08 2.820987E+08 %cxline - vtor.gt.vion; vtor,vion = 2.745687E+08 2.712395E+08 %cxline - vtor.gt.vion; vtor,vion = 2.075337E+08 2.037173E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957166E+08 2.955667E+08 %cxline - vtor.gt.vion; vtor,vion = 1.386050E+08 1.309195E+08 %cxline - vtor.gt.vion; vtor,vion = 3.373392E+08 3.344477E+08 %cxline - vtor.gt.vion; vtor,vion = 3.357942E+08 3.344477E+08 %cxline - vtor.gt.vion; vtor,vion = 9.905153E+07 9.538168E+07 %cxline - vtor.gt.vion; vtor,vion = 1.007230E+08 9.538168E+07 %cxline - vtor.gt.vion; vtor,vion = 1.072803E+08 1.062679E+08 %cxline - vtor.gt.vion; vtor,vion = 1.411401E+08 1.371292E+08 %cxline - vtor.gt.vion; vtor,vion = 2.824317E+08 2.761075E+08 %cxline - vtor.gt.vion; vtor,vion = 3.828720E+08 3.824094E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124758E+08 2.097955E+08 %cxline - vtor.gt.vion; vtor,vion = 8.358193E+07 7.843104E+07 %cxline - vtor.gt.vion; vtor,vion = 7.393019E+07 7.275941E+07 %cxline - vtor.gt.vion; vtor,vion = 3.437937E+08 3.436480E+08 %cxline - vtor.gt.vion; vtor,vion = 2.503927E+08 2.502298E+08 %cxline - vtor.gt.vion; vtor,vion = 1.083800E+08 1.057159E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 72 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 73 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orball: in processor 0: orbit # iorb= 318 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0186E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0177E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0180E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.943E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.993E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.916E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 99 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13893530.4236502 a. %note: constrained curt @ bdy to: 13893530.4236502 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13893530.4236502 a. %note: constrained curt @ bdy to: 13893530.4236502 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13893530.4236502 a. %note: constrained curt @ bdy to: 13893530.4236502 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13893530.4236502 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13893530.4236502 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.969E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.993E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 8.911693621435584E+015 129322196423699. zfext1,zfext2= 1.168938560622197E+018 1.737958166474747E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 8.782371425011885E+015 1.293221964236989E+015 zfext1,zfext2= 1.167645338657960E+018 1.725025946832377E+017 %xjaset -- root not found, trying standard fixup iteration= 2 %depall specie #1 -> 4171 - 0 (killed) + 11829 (dep) = 16000 ptcls. %depall specie #2 -> 1368 - 0 (killed) + 14673 (dep) = 16041 ptcls. %depall specie #3 -> 2567 - 0 (killed) + 13433 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 7.480954E+07 7.457295E+07 %cxline - vtor.gt.vion; vtor,vion = 7.653248E+07 7.457295E+07 %cxline - vtor.gt.vion; vtor,vion = 1.600959E+08 1.548273E+08 %cxline - vtor.gt.vion; vtor,vion = 1.953479E+08 1.943057E+08 %cxline - vtor.gt.vion; vtor,vion = 2.544006E+08 2.543147E+08 %cxline - vtor.gt.vion; vtor,vion = 1.699597E+08 1.695136E+08 %cxline - vtor.gt.vion; vtor,vion = 7.988383E+07 7.545699E+07 %cxline - vtor.gt.vion; vtor,vion = 2.032181E+08 2.009868E+08 %cxline - vtor.gt.vion; vtor,vion = 1.796327E+08 1.774083E+08 %cxline - vtor.gt.vion; vtor,vion = 2.071756E+08 2.071737E+08 %cxline - vtor.gt.vion; vtor,vion = 2.023772E+08 2.013735E+08 %cxline - vtor.gt.vion; vtor,vion = 1.975830E+08 1.972463E+08 %cxline - vtor.gt.vion; vtor,vion = 1.973155E+08 1.972463E+08 %cxline - vtor.gt.vion; vtor,vion = 2.667454E+08 2.667040E+08 %cxline - vtor.gt.vion; vtor,vion = 1.646554E+08 1.645844E+08 %cxline - vtor.gt.vion; vtor,vion = 1.513805E+08 1.496574E+08 %cxline - vtor.gt.vion; vtor,vion = 2.818541E+08 2.756233E+08 %cxline - vtor.gt.vion; vtor,vion = 6.734066E+08 6.708832E+08 %cxline - vtor.gt.vion; vtor,vion = 5.797719E+08 5.793375E+08 %cxline - vtor.gt.vion; vtor,vion = 5.061295E+08 5.046778E+08 %cxline - vtor.gt.vion; vtor,vion = 1.865920E+08 1.841204E+08 %cxline - vtor.gt.vion; vtor,vion = 2.905020E+08 2.901969E+08 %cxline - vtor.gt.vion; vtor,vion = 1.887310E+08 1.883965E+08 %cxline - vtor.gt.vion; vtor,vion = 3.360300E+08 3.353920E+08 %cxline - vtor.gt.vion; vtor,vion = 1.550037E+08 1.531041E+08 %cxline - vtor.gt.vion; vtor,vion = 1.808057E+08 1.784245E+08 %cxline - vtor.gt.vion; vtor,vion = 4.990464E+08 4.990378E+08 %cxline - vtor.gt.vion; vtor,vion = 5.791426E+08 5.790437E+08 %cxline - vtor.gt.vion; vtor,vion = 5.811447E+08 5.790437E+08 %cxline - vtor.gt.vion; vtor,vion = 1.983389E+08 1.952957E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 298 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.976E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 100 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13485926.5914340 a. %note: constrained curt @ bdy to: 13485926.5914340 a. nbstart... %note: constrained curt @ bdy to: 13485926.5914340 a. %note: constrained curt @ bdy to: 13485926.5914340 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13485926.5914340 a. %note: constrained curt @ bdy to: 13485926.5914340 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13485926.5914340 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13485926.5914340 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.976E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.576680433258957E+016 129322196423699. zfext1,zfext2= 1.020114998784815E+018 3.658447165542954E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.563748213616587E+016 1.293221964236990E+015 zfext1,zfext2= 1.018821776820578E+018 3.645514945900584E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.434426017192888E+016 1.293221964236989E+016 zfext1,zfext2= 1.005889557178208E+018 3.516192749476885E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 3581 - 0 (killed) + 12839 (dep) = 16420 ptcls. %depall specie #2 -> 1319 - 0 (killed) + 14912 (dep) = 16231 ptcls. %depall specie #3 -> 2250 - 0 (killed) + 14139 (dep) = 16389 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.519410E+08 2.518454E+08 %cxline - vtor.gt.vion; vtor,vion = 5.238633E+08 5.143292E+08 %cxline - vtor.gt.vion; vtor,vion = 3.931290E+08 3.815269E+08 %cxline - vtor.gt.vion; vtor,vion = 4.252651E+08 4.235770E+08 %cxline - vtor.gt.vion; vtor,vion = 5.493914E+07 5.213363E+07 %cxline - vtor.gt.vion; vtor,vion = 5.486152E+07 5.213363E+07 %cxline - vtor.gt.vion; vtor,vion = 5.967914E+07 5.198141E+07 %cxline - vtor.gt.vion; vtor,vion = 5.976724E+07 5.198141E+07 %cxline - vtor.gt.vion; vtor,vion = 2.446339E+08 2.414606E+08 %cxline - vtor.gt.vion; vtor,vion = 9.699492E+07 9.658279E+07 %cxline - vtor.gt.vion; vtor,vion = 1.946601E+08 1.944707E+08 %cxline - vtor.gt.vion; vtor,vion = 4.894331E+08 4.866962E+08 %cxline - vtor.gt.vion; vtor,vion = 4.932559E+08 4.866962E+08 %cxline - vtor.gt.vion; vtor,vion = 1.757951E+08 1.746644E+08 %cxline - vtor.gt.vion; vtor,vion = 2.116984E+08 2.104258E+08 %cxline - vtor.gt.vion; vtor,vion = 3.226866E+08 3.219767E+08 %cxline - vtor.gt.vion; vtor,vion = 3.498101E+08 3.495212E+08 %cxline - vtor.gt.vion; vtor,vion = 2.197598E+08 2.176317E+08 %cxline - vtor.gt.vion; vtor,vion = 2.010571E+08 2.000406E+08 %cxline - vtor.gt.vion; vtor,vion = 3.932118E+08 3.929650E+08 %cxline - vtor.gt.vion; vtor,vion = 3.930957E+08 3.929650E+08 %cxline - vtor.gt.vion; vtor,vion = 2.617913E+08 2.606894E+08 %cxline - vtor.gt.vion; vtor,vion = 5.290089E+08 5.253016E+08 %cxline - vtor.gt.vion; vtor,vion = 3.786798E+08 3.712306E+08 %cxline - vtor.gt.vion; vtor,vion = 3.748383E+08 3.712306E+08 %cxline - vtor.gt.vion; vtor,vion = 1.100366E+08 1.077809E+08 %cxline - vtor.gt.vion; vtor,vion = 1.814016E+08 1.810925E+08 %cxline - vtor.gt.vion; vtor,vion = 1.817839E+08 1.810925E+08 %orball: in processor 0: orbit # iorb= 1706 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.425929E+08 5.400306E+08 %cxline - vtor.gt.vion; vtor,vion = 3.665118E+08 3.638971E+08 %cxline - vtor.gt.vion; vtor,vion = 3.653731E+08 3.638971E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0219E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 30 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 186 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 231 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.916E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.987E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 101 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13528593.6453355 a. %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13528593.6453355 a. %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13528593.6453355 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.987E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.049588972746394E+016 337688246255096. zfext1,zfext2= 3.014402746164694E+018 5.179433857265134E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.015820148120884E+016 3.376882462550956E+015 zfext1,zfext2= 3.011025863702143E+018 5.145665032639624E+017 %depall specie #1 -> 3614 - 0 (killed) + 13050 (dep) = 16664 ptcls. %depall specie #2 -> 1352 - 0 (killed) + 14918 (dep) = 16270 ptcls. %depall specie #3 -> 2279 - 0 (killed) + 14235 (dep) = 16514 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.066108E+08 3.024274E+08 %cxline - vtor.gt.vion; vtor,vion = 2.383404E+08 2.380372E+08 %cxline - vtor.gt.vion; vtor,vion = 3.678073E+08 3.650297E+08 %cxline - vtor.gt.vion; vtor,vion = 2.227440E+08 2.226884E+08 %cxline - vtor.gt.vion; vtor,vion = 1.569029E+08 1.547045E+08 %cxline - vtor.gt.vion; vtor,vion = 1.550881E+08 1.547045E+08 %cxline - vtor.gt.vion; vtor,vion = 2.737317E+08 2.736994E+08 %cxline - vtor.gt.vion; vtor,vion = 2.454291E+08 2.436612E+08 %orball: in processor 0: orbit # iorb= 478 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 8.140511E+08 8.001944E+08 %cxline - vtor.gt.vion; vtor,vion = 1.905889E+08 1.896951E+08 %cxline - vtor.gt.vion; vtor,vion = 1.939844E+08 1.938081E+08 %cxline - vtor.gt.vion; vtor,vion = 9.580666E+07 8.896714E+07 %cxline - vtor.gt.vion; vtor,vion = 9.312238E+07 8.896714E+07 %cxline - vtor.gt.vion; vtor,vion = 9.781090E+07 8.858269E+07 %cxline - vtor.gt.vion; vtor,vion = 9.792317E+07 8.858269E+07 %cxline - vtor.gt.vion; vtor,vion = 9.191961E+07 8.719281E+07 %cxline - vtor.gt.vion; vtor,vion = 9.072129E+07 8.719281E+07 %cxline - vtor.gt.vion; vtor,vion = 2.579143E+08 2.566334E+08 %cxline - vtor.gt.vion; vtor,vion = 3.244397E+08 3.243656E+08 %cxline - vtor.gt.vion; vtor,vion = 2.092302E+08 2.085519E+08 %cxline - vtor.gt.vion; vtor,vion = 6.001834E+08 5.993085E+08 %cxline - vtor.gt.vion; vtor,vion = 5.844872E+08 5.828527E+08 %cxline - vtor.gt.vion; vtor,vion = 2.288232E+08 2.256215E+08 %cxline - vtor.gt.vion; vtor,vion = 1.720681E+08 1.719790E+08 %cxline - vtor.gt.vion; vtor,vion = 1.793053E+08 1.786633E+08 %cxline - vtor.gt.vion; vtor,vion = 6.817439E+08 6.761989E+08 %cxline - vtor.gt.vion; vtor,vion = 6.807109E+08 6.761989E+08 %cxline - vtor.gt.vion; vtor,vion = 2.852914E+08 2.852403E+08 %cxline - vtor.gt.vion; vtor,vion = 2.666190E+08 2.665675E+08 %cxline - vtor.gt.vion; vtor,vion = 1.721236E+08 1.717512E+08 %cxline - vtor.gt.vion; vtor,vion = 4.776696E+08 4.688167E+08 %cxline - vtor.gt.vion; vtor,vion = 4.730387E+08 4.688167E+08 %cxline - vtor.gt.vion; vtor,vion = 2.489234E+08 2.470590E+08 %cxline - vtor.gt.vion; vtor,vion = 5.653722E+08 5.614267E+08 %cxline - vtor.gt.vion; vtor,vion = 2.050356E+08 1.950463E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orball: in processor 0: orbit # iorb= 39 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orball: in processor 0: orbit # iorb= 69 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 77 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 88 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 153 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 174 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0190E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orball: in processor 0: orbit # iorb= 17 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 30 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 136 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orball: in processor 0: orbit # iorb= 200 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 218 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 313 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.988949154800051E+016 265311543173566. zfext1,zfext2= 2.089501116690221E+018 6.112878163988044E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.962418000482695E+016 2.653115431735656E+015 zfext1,zfext2= 2.086848001258485E+018 6.086347009670687E+017 %xjaset -- root not found, trying standard fixup iteration= 2 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.930E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.987E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 102 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13472241.5362304 a. %note: constrained curt @ bdy to: 13472241.5362304 a. %note: constrained curt @ bdy to: 13472241.5362304 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13472241.5362304 a. nbstart... %note: constrained curt @ bdy to: 13472241.5362304 a. nbstart... %note: constrained curt @ bdy to: 13472241.5362304 a. %note: constrained curt @ bdy to: 13472241.5362304 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13472241.5362304 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.920E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.905E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.987E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.982E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.933E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.839221970380310E+016 129322196423699. zfext1,zfext2= 2.438441911108927E+018 1.442109760799374E+016 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.826289750737940E+016 1.293221964236989E+015 zfext1,zfext2= 2.437148689144691E+018 1.312787564375675E+016 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.696967554314242E+016 1.293221964236989E+016 zfext1,zfext2= 2.424216469502321E+018 195656001386862. %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.037455900772526E+015 4.037455900772526E+015 zfext1,zfext2= 2.420179013601548E+018 -3.841799899385664E+015 %xjaset -- root not found, trying standard fixup iteration= 4 **xjaset: .ge.3 iterations... zfmin,zfcorr= 100.000000000000 100.000000000000 zfext1,zfext2= 2.420179013601548E+018 -3.841799899385764E+015 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.430828586164509E+016 129322196423699. zfext1,zfext2= 2.138420044057492E+018 1.520424038252395E+016 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.417896366522139E+016 1.293221964236989E+015 zfext1,zfext2= 2.137126822093255E+018 1.391101841828696E+016 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.935016970294323E+016 129322196423699. zfext1,zfext2= 1.087319555195592E+018 2.665192140066889E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.922084750651953E+016 1.293221964236989E+015 zfext1,zfext2= 1.086026333231355E+018 2.652259920424519E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.792762554228254E+016 1.293221964236989E+016 zfext1,zfext2= 1.073094113588985E+018 2.522937724000820E+017 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 9.528636931150746E+016 337688246255096. zfext1,zfext2= 5.713075657484078E+018 2.278196144960166E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 9.494868106525237E+016 3.376882462550956E+015 zfext1,zfext2= 5.709698775021527E+018 2.244427320334657E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 9.157179860270141E+016 3.376882462550956E+016 zfext1,zfext2= 5.675929950396018E+018 1.906739074079561E+017 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.662517981382374E+016 337688246255096. zfext1,zfext2= 3.634745535163373E+018 3.313719628160461E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.628749156756865E+016 3.376882462550956E+015 zfext1,zfext2= 3.631368652700822E+018 3.279950803534951E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.291060910501769E+016 2.291060910501769E+016 zfext1,zfext2= 3.608458043595804E+018 3.050844712484774E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 3669 - 0 (killed) + 12965 (dep) = 16634 ptcls. %depall specie #2 -> 1457 - 0 (killed) + 14801 (dep) = 16258 ptcls. %depall specie #3 -> 2379 - 0 (killed) + 14101 (dep) = 16480 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.018836E+08 1.010930E+08 %cxline - vtor.gt.vion; vtor,vion = 1.731157E+08 1.722382E+08 %cxline - vtor.gt.vion; vtor,vion = 1.457366E+08 1.420053E+08 %orball: in processor 0: orbit # iorb= 63 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.793317E+08 1.760475E+08 %cxline - vtor.gt.vion; vtor,vion = 1.389639E+08 1.386383E+08 %cxline - vtor.gt.vion; vtor,vion = 8.763802E+07 8.706168E+07 %cxline - vtor.gt.vion; vtor,vion = 2.103707E+08 2.101358E+08 %cxline - vtor.gt.vion; vtor,vion = 2.482154E+08 2.432669E+08 %cxline - vtor.gt.vion; vtor,vion = 1.721036E+08 1.660477E+08 %cxline - vtor.gt.vion; vtor,vion = 1.419939E+08 1.410466E+08 %orball: in processor 0: orbit # iorb= 518 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.564939E+08 5.512237E+08 %cxline - vtor.gt.vion; vtor,vion = 3.531131E+08 3.529877E+08 %cxline - vtor.gt.vion; vtor,vion = 5.898664E+08 5.853558E+08 %cxline - vtor.gt.vion; vtor,vion = 3.421632E+08 3.348984E+08 %cxline - vtor.gt.vion; vtor,vion = 2.216356E+08 2.199205E+08 %cxline - vtor.gt.vion; vtor,vion = 5.246604E+08 5.186515E+08 %cxline - vtor.gt.vion; vtor,vion = 5.234410E+08 5.186515E+08 %cxline - vtor.gt.vion; vtor,vion = 4.501863E+08 4.494336E+08 %cxline - vtor.gt.vion; vtor,vion = 3.353444E+08 3.333023E+08 %cxline - vtor.gt.vion; vtor,vion = 2.866903E+08 2.840065E+08 %cxline - vtor.gt.vion; vtor,vion = 1.290480E+08 1.285067E+08 %cxline - vtor.gt.vion; vtor,vion = 1.290059E+08 1.285067E+08 %cxline - vtor.gt.vion; vtor,vion = 1.767244E+08 1.739478E+08 %cxline - vtor.gt.vion; vtor,vion = 3.462884E+08 3.434212E+08 %cxline - vtor.gt.vion; vtor,vion = 1.792488E+08 1.790236E+08 %cxline - vtor.gt.vion; vtor,vion = 5.453093E+08 5.439183E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %cxline - vtor.gt.vion; vtor,vion = 3.464764E+08 3.456716E+08 %cxline - vtor.gt.vion; vtor,vion = 5.986618E+08 5.959510E+08 %cxline - vtor.gt.vion; vtor,vion = 2.592587E+08 2.591168E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orball: in processor 0: orbit # iorb= 24 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 147 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orball: in processor 0: orbit # iorb= 10 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 38 never inside plasma. %orball: in processor 0: orbit # iorb= 66 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 181 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orball: in processor 0: orbit # iorb= 194 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 269 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0376E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0207E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 103 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13448410.2354450 a. %note: constrained curt @ bdy to: 13448410.2354450 a. %note: constrained curt @ bdy to: 13448410.2354450 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13448410.2354450 a. %note: constrained curt @ bdy to: 13448410.2354450 a. nbstart... %note: constrained curt @ bdy to: 13448410.2354450 a. nbstart... %note: constrained curt @ bdy to: 13448410.2354450 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13448410.2354450 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3762 - 0 (killed) + 12794 (dep) = 16556 ptcls. %depall specie #2 -> 1508 - 0 (killed) + 14709 (dep) = 16217 ptcls. %depall specie #3 -> 2335 - 0 (killed) + 14035 (dep) = 16370 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.885973E+08 2.881796E+08 %cxline - vtor.gt.vion; vtor,vion = 2.783202E+08 2.675519E+08 %cxline - vtor.gt.vion; vtor,vion = 2.391386E+08 2.391116E+08 %cxline - vtor.gt.vion; vtor,vion = 2.391679E+08 2.391116E+08 %cxline - vtor.gt.vion; vtor,vion = 1.825390E+08 1.824853E+08 %cxline - vtor.gt.vion; vtor,vion = 1.137350E+08 1.123034E+08 %orball: in processor 0: orbit # iorb= 382 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.371089E+08 3.366440E+08 %cxline - vtor.gt.vion; vtor,vion = 3.368862E+08 3.366440E+08 %cxline - vtor.gt.vion; vtor,vion = 2.286110E+08 2.261625E+08 %cxline - vtor.gt.vion; vtor,vion = 1.813244E+08 1.800129E+08 %cxline - vtor.gt.vion; vtor,vion = 1.777262E+08 1.770399E+08 %cxline - vtor.gt.vion; vtor,vion = 1.773787E+08 1.770399E+08 %cxline - vtor.gt.vion; vtor,vion = 2.238014E+08 2.227741E+08 %cxline - vtor.gt.vion; vtor,vion = 2.595748E+08 2.529557E+08 %cxline - vtor.gt.vion; vtor,vion = 2.647748E+08 2.642075E+08 %cxline - vtor.gt.vion; vtor,vion = 5.871055E+08 5.859807E+08 %cxline - vtor.gt.vion; vtor,vion = 3.653432E+08 3.638473E+08 %cxline - vtor.gt.vion; vtor,vion = 3.006496E+08 3.005487E+08 %cxline - vtor.gt.vion; vtor,vion = 6.398609E+08 6.376001E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %cxline - vtor.gt.vion; vtor,vion = 4.271800E+08 4.261256E+08 %cxline - vtor.gt.vion; vtor,vion = 3.391874E+08 3.372313E+08 %cxline - vtor.gt.vion; vtor,vion = 1.427286E+08 1.418586E+08 %cxline - vtor.gt.vion; vtor,vion = 1.756066E+08 1.741576E+08 %cxline - vtor.gt.vion; vtor,vion = 2.661475E+08 2.646195E+08 %cxline - vtor.gt.vion; vtor,vion = 9.612032E+07 9.551166E+07 %cxline - vtor.gt.vion; vtor,vion = 1.514148E+08 1.497491E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 49 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orball: in processor 0: orbit # iorb= 63 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orball: in processor 0: orbit # iorb= 79 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 145 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0202E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0184E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 232 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 244 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0267E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 104 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426352.4339172 a. %note: constrained curt @ bdy to: 13426352.4339172 a. %note: constrained curt @ bdy to: 13426352.4339172 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13426352.4339172 a. %note: constrained curt @ bdy to: 13426352.4339172 a. nbstart... %note: constrained curt @ bdy to: 13426352.4339172 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13426352.4339172 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426352.4339172 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.074825687550483E+016 337688246255096. zfext1,zfext2= 6.091334022571232E+018 9.582349540666082E+016 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.041056862924974E+016 3.376882462550956E+015 zfext1,zfext2= 6.087957140108681E+018 9.244661294410986E+016 %xjaset -- root not found, trying standard fixup iteration= 2 %depall specie #1 -> 3806 - 0 (killed) + 12667 (dep) = 16473 ptcls. %depall specie #2 -> 1611 - 0 (killed) + 14589 (dep) = 16200 ptcls. %depall specie #3 -> 2479 - 0 (killed) + 13867 (dep) = 16346 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.214727E+08 2.195797E+08 %cxline - vtor.gt.vion; vtor,vion = 1.556145E+08 1.513305E+08 %cxline - vtor.gt.vion; vtor,vion = 3.380157E+08 3.336878E+08 %cxline - vtor.gt.vion; vtor,vion = 1.859608E+08 1.838040E+08 %orball: in processor 0: orbit # iorb= 138 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.154401E+08 3.153916E+08 %orball: in processor 0: orbit # iorb= 183 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.318143E+08 2.306173E+08 %cxline - vtor.gt.vion; vtor,vion = 5.424488E+08 5.417999E+08 %cxline - vtor.gt.vion; vtor,vion = 1.042793E+08 1.031452E+08 %cxline - vtor.gt.vion; vtor,vion = 1.441242E+08 1.435959E+08 %cxline - vtor.gt.vion; vtor,vion = 4.691889E+08 4.682744E+08 %cxline - vtor.gt.vion; vtor,vion = 2.047792E+08 2.029357E+08 %cxline - vtor.gt.vion; vtor,vion = 2.453827E+08 2.453340E+08 %cxline - vtor.gt.vion; vtor,vion = 3.735800E+08 3.643253E+08 %cxline - vtor.gt.vion; vtor,vion = 3.799519E+08 3.782195E+08 %cxline - vtor.gt.vion; vtor,vion = 6.789423E+08 6.761318E+08 %cxline - vtor.gt.vion; vtor,vion = 2.290050E+08 2.262619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.072718E+08 2.070301E+08 %orball: in processor 0: orbit # iorb= 1102 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.293665E+08 5.240274E+08 %cxline - vtor.gt.vion; vtor,vion = 5.325323E+08 5.240274E+08 %cxline - vtor.gt.vion; vtor,vion = 5.829461E+08 5.826361E+08 %cxline - vtor.gt.vion; vtor,vion = 3.115581E+08 3.073644E+08 %cxline - vtor.gt.vion; vtor,vion = 5.371000E+08 5.368988E+08 %cxline - vtor.gt.vion; vtor,vion = 1.378475E+08 1.368101E+08 %cxline - vtor.gt.vion; vtor,vion = 1.442135E+08 1.433911E+08 %cxline - vtor.gt.vion; vtor,vion = 5.167693E+08 5.136136E+08 %orball: in processor 0: orbit # iorb= 1703 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.732504E+08 3.726909E+08 %cxline - vtor.gt.vion; vtor,vion = 2.416345E+08 2.386196E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orball: in processor 0: orbit # iorb= 76 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 127 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0215E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 133 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0191E+00 %orball: in processor 0: orbit # iorb= 165 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 176 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 213 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 105 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13412912.7862985 a. %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... %note: constrained curt @ bdy to: 13412912.7862985 a. %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13412912.7862985 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.820829367289114E+016 129322196423699. zfext1,zfext2= 1.031167104901359E+018 4.204507554000924E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.807897147646744E+016 1.293221964236989E+015 zfext1,zfext2= 1.029873882937122E+018 4.191575334358554E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.678574951223045E+016 1.293221964236989E+016 zfext1,zfext2= 1.016941663294752E+018 4.062253137934856E+017 %depall specie #1 -> 3998 - 0 (killed) + 12464 (dep) = 16462 ptcls. %depall specie #2 -> 1642 - 0 (killed) + 14532 (dep) = 16174 ptcls. %depall specie #3 -> 2592 - 0 (killed) + 13722 (dep) = 16314 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 4.778996E+08 4.687037E+08 %cxline - vtor.gt.vion; vtor,vion = 4.011263E+08 3.983702E+08 %cxline - vtor.gt.vion; vtor,vion = 4.004453E+08 3.983702E+08 %orball: in processor 0: orbit # iorb= 198 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.073905E+08 1.038477E+08 %cxline - vtor.gt.vion; vtor,vion = 1.613627E+08 1.602134E+08 %orball: in processor 0: orbit # iorb= 480 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.494828E+08 5.494007E+08 %cxline - vtor.gt.vion; vtor,vion = 2.706910E+08 2.704787E+08 %cxline - vtor.gt.vion; vtor,vion = 6.090576E+08 6.053157E+08 %cxline - vtor.gt.vion; vtor,vion = 6.108503E+08 6.053157E+08 %cxline - vtor.gt.vion; vtor,vion = 2.552690E+08 2.525744E+08 %cxline - vtor.gt.vion; vtor,vion = 3.285244E+08 3.255429E+08 %cxline - vtor.gt.vion; vtor,vion = 1.514268E+08 1.468671E+08 %cxline - vtor.gt.vion; vtor,vion = 3.773368E+08 3.763281E+08 %cxline - vtor.gt.vion; vtor,vion = 2.750084E+08 2.724958E+08 %cxline - vtor.gt.vion; vtor,vion = 2.902595E+08 2.888621E+08 %orball: in processor 0: orbit # iorb= 1267 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.012729E+08 2.998322E+08 %cxline - vtor.gt.vion; vtor,vion = 1.680755E+08 1.666080E+08 %cxline - vtor.gt.vion; vtor,vion = 5.674056E+08 5.673362E+08 %cxline - vtor.gt.vion; vtor,vion = 3.508357E+08 3.479281E+08 %cxline - vtor.gt.vion; vtor,vion = 3.947788E+08 3.945874E+08 %cxline - vtor.gt.vion; vtor,vion = 3.388926E+08 3.388799E+08 %cxline - vtor.gt.vion; vtor,vion = 2.652558E+08 2.651299E+08 %cxline - vtor.gt.vion; vtor,vion = 4.689742E+08 4.673136E+08 %cxline - vtor.gt.vion; vtor,vion = 4.731493E+08 4.673136E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 3 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 18 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0232E+00 %orball: in processor 0: orbit # iorb= 23 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 49 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orball: in processor 0: orbit # iorb= 105 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orball: in processor 0: orbit # iorb= 130 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0169E+00 %orball: in processor 0: orbit # iorb= 176 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 198 never inside plasma. %orball: in processor 0: orbit # iorb= 211 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 106 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13405747.2858131 a. %note: constrained curt @ bdy to: 13405747.2858131 a. %note: constrained curt @ bdy to: 13405747.2858131 a. %note: constrained curt @ bdy to: 13405747.2858131 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13405747.2858131 a. nbstart... %note: constrained curt @ bdy to: 13405747.2858131 a. %note: constrained curt @ bdy to: 13405747.2858131 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13405747.2858131 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4093 - 0 (killed) + 12331 (dep) = 16424 ptcls. %depall specie #2 -> 1691 - 0 (killed) + 14476 (dep) = 16167 ptcls. %depall specie #3 -> 2784 - 0 (killed) + 13536 (dep) = 16320 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 2.078521E+08 2.078121E+08 %cxline - vtor.gt.vion; vtor,vion = 2.102709E+08 2.094864E+08 %cxline - vtor.gt.vion; vtor,vion = 5.469318E+08 5.460959E+08 %cxline - vtor.gt.vion; vtor,vion = 5.532444E+08 5.460959E+08 %cxline - vtor.gt.vion; vtor,vion = 2.336329E+08 2.334724E+08 %cxline - vtor.gt.vion; vtor,vion = 2.560018E+08 2.537046E+08 %cxline - vtor.gt.vion; vtor,vion = 8.917920E+07 8.473685E+07 %cxline - vtor.gt.vion; vtor,vion = 9.098977E+07 8.473685E+07 %cxline - vtor.gt.vion; vtor,vion = 2.804733E+08 2.802789E+08 %cxline - vtor.gt.vion; vtor,vion = 2.349557E+08 2.325506E+08 %cxline - vtor.gt.vion; vtor,vion = 2.134388E+08 2.132088E+08 %cxline - vtor.gt.vion; vtor,vion = 2.671905E+08 2.661344E+08 %cxline - vtor.gt.vion; vtor,vion = 3.451483E+08 3.368301E+08 %cxline - vtor.gt.vion; vtor,vion = 3.242037E+08 3.233102E+08 %cxline - vtor.gt.vion; vtor,vion = 3.412830E+08 3.394662E+08 %cxline - vtor.gt.vion; vtor,vion = 1.549630E+08 1.549539E+08 %cxline - vtor.gt.vion; vtor,vion = 4.118364E+08 4.116942E+08 %cxline - vtor.gt.vion; vtor,vion = 3.204909E+08 3.198071E+08 %cxline - vtor.gt.vion; vtor,vion = 3.329458E+08 3.327601E+08 %cxline - vtor.gt.vion; vtor,vion = 3.559707E+08 3.473365E+08 %cxline - vtor.gt.vion; vtor,vion = 3.510703E+08 3.473365E+08 %cxline - vtor.gt.vion; vtor,vion = 3.257696E+08 3.255652E+08 %cxline - vtor.gt.vion; vtor,vion = 2.953550E+08 2.941109E+08 %orball: in processor 0: orbit # iorb= 1782 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.722522E+08 4.704492E+08 %cxline - vtor.gt.vion; vtor,vion = 3.663670E+08 3.658215E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 13 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 74 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 94 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 122 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orball: in processor 0: orbit # iorb= 19 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0176E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 107 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13403822.4263490 a. %note: constrained curt @ bdy to: 13403822.4263490 a. nbstart... %note: constrained curt @ bdy to: 13403822.4263490 a. %note: constrained curt @ bdy to: 13403822.4263490 a. %note: constrained curt @ bdy to: 13403822.4263490 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13403822.4263490 a. %note: constrained curt @ bdy to: 13403822.4263490 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13403822.4263490 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.685969299495002E+016 337688246255096. zfext1,zfext2= 5.279212043210258E+018 1.714271540498760E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.652200474869492E+016 3.376882462550956E+015 zfext1,zfext2= 5.275835160747707E+018 1.680502715873250E+017 **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.652330572300422E+016 337688246255096. zfext1,zfext2= 5.853252753779877E+018 1.291905148237966E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.618561747674913E+016 3.376882462550956E+015 zfext1,zfext2= 5.849875871317326E+018 1.258136323612457E+017 %depall specie #1 -> 4237 - 0 (killed) + 12182 (dep) = 16419 ptcls. %depall specie #2 -> 1688 - 0 (killed) + 14464 (dep) = 16152 ptcls. %depall specie #3 -> 2902 - 0 (killed) + 13403 (dep) = 16305 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.904764E+08 1.872355E+08 %cxline - vtor.gt.vion; vtor,vion = 3.212588E+08 3.210561E+08 %cxline - vtor.gt.vion; vtor,vion = 3.151399E+08 3.140537E+08 %cxline - vtor.gt.vion; vtor,vion = 3.217767E+08 3.121311E+08 %cxline - vtor.gt.vion; vtor,vion = 1.171214E+08 1.170020E+08 %cxline - vtor.gt.vion; vtor,vion = 9.137736E+07 9.107080E+07 %cxline - vtor.gt.vion; vtor,vion = 9.831305E+07 9.012270E+07 %cxline - vtor.gt.vion; vtor,vion = 9.831516E+07 9.012270E+07 %cxline - vtor.gt.vion; vtor,vion = 9.298118E+07 9.012270E+07 %cxline - vtor.gt.vion; vtor,vion = 9.346784E+07 9.012270E+07 %cxline - vtor.gt.vion; vtor,vion = 9.862257E+07 8.944559E+07 %cxline - vtor.gt.vion; vtor,vion = 9.867783E+07 8.944559E+07 %cxline - vtor.gt.vion; vtor,vion = 2.034402E+08 2.026606E+08 %cxline - vtor.gt.vion; vtor,vion = 3.659957E+08 3.650091E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %cxline - vtor.gt.vion; vtor,vion = 2.414752E+08 2.405086E+08 %cxline - vtor.gt.vion; vtor,vion = 3.231066E+08 3.163967E+08 %orball: in processor 0: orbit # iorb= 439 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.773202E+08 2.769831E+08 %cxline - vtor.gt.vion; vtor,vion = 2.610671E+08 2.609747E+08 %orball: in processor 0: orbit # iorb= 478 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.735554E+08 1.732186E+08 %cxline - vtor.gt.vion; vtor,vion = 1.733172E+08 1.732186E+08 %cxline - vtor.gt.vion; vtor,vion = 2.395192E+08 2.344968E+08 %cxline - vtor.gt.vion; vtor,vion = 2.942031E+08 2.879744E+08 %cxline - vtor.gt.vion; vtor,vion = 1.267658E+08 1.267030E+08 %cxline - vtor.gt.vion; vtor,vion = 5.448878E+08 5.402611E+08 %cxline - vtor.gt.vion; vtor,vion = 5.409746E+08 5.402611E+08 %cxline - vtor.gt.vion; vtor,vion = 1.506173E+08 1.504230E+08 %orball: in processor 0: orbit # iorb= 1257 never inside plasma. %orball: in processor 0: orbit # iorb= 1332 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.166169E+08 5.114049E+08 %cxline - vtor.gt.vion; vtor,vion = 5.177854E+08 5.114049E+08 %cxline - vtor.gt.vion; vtor,vion = 1.242788E+08 1.229071E+08 %cxline - vtor.gt.vion; vtor,vion = 1.463638E+08 1.373140E+08 %cxline - vtor.gt.vion; vtor,vion = 1.462948E+08 1.373140E+08 %cxline - vtor.gt.vion; vtor,vion = 1.464877E+08 1.374131E+08 %cxline - vtor.gt.vion; vtor,vion = 1.469431E+08 1.374131E+08 %cxline - vtor.gt.vion; vtor,vion = 2.808779E+08 2.804452E+08 %cxline - vtor.gt.vion; vtor,vion = 2.819174E+08 2.804452E+08 %cxline - vtor.gt.vion; vtor,vion = 4.772356E+08 4.769246E+08 %cxline - vtor.gt.vion; vtor,vion = 1.783647E+08 1.779878E+08 %cxline - vtor.gt.vion; vtor,vion = 1.820528E+08 1.803990E+08 %cxline - vtor.gt.vion; vtor,vion = 2.324323E+08 2.274809E+08 %cxline - vtor.gt.vion; vtor,vion = 2.194636E+08 2.179762E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orball: in processor 0: orbit # iorb= 39 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 113 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orball: in processor 0: orbit # iorb= 130 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orball: in processor 0: orbit # iorb= 181 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orball: in processor 0: orbit # iorb= 184 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0194E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0201E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 80 never inside plasma. %orball: in processor 0: orbit # iorb= 106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 182 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 206 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 215 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 226 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 337 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 108 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13405477.6888812 a. %note: constrained curt @ bdy to: 13405477.6888812 a. %note: constrained curt @ bdy to: 13405477.6888812 a. %note: constrained curt @ bdy to: 13405477.6888812 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13405477.6888812 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13405477.6888812 a. %note: constrained curt @ bdy to: 13405477.6888812 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13405477.6888812 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4541 - 0 (killed) + 11922 (dep) = 16463 ptcls. %depall specie #2 -> 1838 - 0 (killed) + 14331 (dep) = 16169 ptcls. %depall specie #3 -> 3021 - 0 (killed) + 13279 (dep) = 16300 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.076042E+08 2.062491E+08 %cxline - vtor.gt.vion; vtor,vion = 1.968750E+08 1.959572E+08 %cxline - vtor.gt.vion; vtor,vion = 1.971990E+08 1.955452E+08 %cxline - vtor.gt.vion; vtor,vion = 3.360211E+08 3.351819E+08 %cxline - vtor.gt.vion; vtor,vion = 9.440082E+07 9.418901E+07 %cxline - vtor.gt.vion; vtor,vion = 1.741086E+08 1.727697E+08 %cxline - vtor.gt.vion; vtor,vion = 1.731556E+08 1.727697E+08 %cxline - vtor.gt.vion; vtor,vion = 3.914188E+08 3.795681E+08 %orball: in processor 0: orbit # iorb= 403 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.729984E+08 2.729471E+08 %cxline - vtor.gt.vion; vtor,vion = 1.976977E+08 1.969653E+08 %cxline - vtor.gt.vion; vtor,vion = 2.004020E+08 1.982382E+08 %cxline - vtor.gt.vion; vtor,vion = 5.017226E+08 4.980808E+08 %cxline - vtor.gt.vion; vtor,vion = 5.004900E+08 4.980808E+08 %cxline - vtor.gt.vion; vtor,vion = 2.912242E+08 2.900412E+08 %cxline - vtor.gt.vion; vtor,vion = 3.059916E+08 3.057036E+08 %cxline - vtor.gt.vion; vtor,vion = 4.019372E+08 3.928049E+08 %cxline - vtor.gt.vion; vtor,vion = 3.738819E+08 3.704900E+08 %cxline - vtor.gt.vion; vtor,vion = 2.859542E+08 2.841973E+08 %cxline - vtor.gt.vion; vtor,vion = 2.012359E+08 2.002799E+08 %cxline - vtor.gt.vion; vtor,vion = 1.597667E+08 1.588861E+08 %cxline - vtor.gt.vion; vtor,vion = 3.143024E+08 3.091748E+08 %cxline - vtor.gt.vion; vtor,vion = 9.145933E+07 8.837437E+07 %cxline - vtor.gt.vion; vtor,vion = 9.073883E+07 8.837437E+07 %cxline - vtor.gt.vion; vtor,vion = 5.189504E+08 5.154850E+08 %cxline - vtor.gt.vion; vtor,vion = 2.060213E+08 2.043351E+08 %cxline - vtor.gt.vion; vtor,vion = 2.068340E+08 2.043351E+08 %orball: in processor 0: orbit # iorb= 1763 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 7.929868E+07 7.796381E+07 %cxline - vtor.gt.vion; vtor,vion = 7.742080E+07 7.738771E+07 %cxline - vtor.gt.vion; vtor,vion = 8.328697E+07 8.304968E+07 %cxline - vtor.gt.vion; vtor,vion = 4.134711E+08 4.082546E+08 %cxline - vtor.gt.vion; vtor,vion = 5.072511E+08 5.046576E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orball: in processor 0: orbit # iorb= 32 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 163 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0174E+00 %orball: in processor 0: orbit # iorb= 170 never inside plasma. %orball: in processor 0: orbit # iorb= 212 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 25 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 41 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 193 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orball: in processor 0: orbit # iorb= 262 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 109 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13411448.9917686 a. %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... %note: constrained curt @ bdy to: 13411448.9917686 a. %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13411448.9917686 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4683 - 0 (killed) + 11754 (dep) = 16437 ptcls. %depall specie #2 -> 1849 - 0 (killed) + 14305 (dep) = 16154 ptcls. %depall specie #3 -> 3102 - 0 (killed) + 13191 (dep) = 16293 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.792162E+08 1.763613E+08 %cxline - vtor.gt.vion; vtor,vion = 1.780384E+08 1.778476E+08 %cxline - vtor.gt.vion; vtor,vion = 1.780688E+08 1.778476E+08 %cxline - vtor.gt.vion; vtor,vion = 1.330908E+08 1.303560E+08 %cxline - vtor.gt.vion; vtor,vion = 1.304789E+08 1.303560E+08 %cxline - vtor.gt.vion; vtor,vion = 1.221356E+08 1.221156E+08 %cxline - vtor.gt.vion; vtor,vion = 1.223311E+08 1.221156E+08 %cxline - vtor.gt.vion; vtor,vion = 3.278222E+08 3.243477E+08 %cxline - vtor.gt.vion; vtor,vion = 3.063910E+08 3.044697E+08 %cxline - vtor.gt.vion; vtor,vion = 2.414688E+08 2.414505E+08 %cxline - vtor.gt.vion; vtor,vion = 2.166210E+08 2.160751E+08 %cxline - vtor.gt.vion; vtor,vion = 4.040789E+08 3.939960E+08 %cxline - vtor.gt.vion; vtor,vion = 2.790018E+08 2.743149E+08 %cxline - vtor.gt.vion; vtor,vion = 3.659077E+08 3.651791E+08 %cxline - vtor.gt.vion; vtor,vion = 4.425106E+08 4.409875E+08 %cxline - vtor.gt.vion; vtor,vion = 1.932813E+08 1.904657E+08 %cxline - vtor.gt.vion; vtor,vion = 1.845254E+08 1.843576E+08 %cxline - vtor.gt.vion; vtor,vion = 1.796895E+08 1.790935E+08 %cxline - vtor.gt.vion; vtor,vion = 3.813046E+08 3.799767E+08 %cxline - vtor.gt.vion; vtor,vion = 1.732718E+08 1.723469E+08 %cxline - vtor.gt.vion; vtor,vion = 2.470197E+08 2.468757E+08 %cxline - vtor.gt.vion; vtor,vion = 1.382933E+08 1.356472E+08 %cxline - vtor.gt.vion; vtor,vion = 2.233069E+08 2.228926E+08 %cxline - vtor.gt.vion; vtor,vion = 2.234959E+08 2.228926E+08 %cxline - vtor.gt.vion; vtor,vion = 2.165603E+08 2.151908E+08 %cxline - vtor.gt.vion; vtor,vion = 2.171199E+08 2.151908E+08 %cxline - vtor.gt.vion; vtor,vion = 4.601000E+08 4.596575E+08 %cxline - vtor.gt.vion; vtor,vion = 4.613873E+08 4.596575E+08 %cxline - vtor.gt.vion; vtor,vion = 1.135498E+08 1.131856E+08 %cxline - vtor.gt.vion; vtor,vion = 1.152302E+08 1.148823E+08 %cxline - vtor.gt.vion; vtor,vion = 1.111843E+08 1.110616E+08 %cxline - vtor.gt.vion; vtor,vion = 1.125310E+08 1.119534E+08 %cxline - vtor.gt.vion; vtor,vion = 1.024200E+08 9.450048E+07 %cxline - vtor.gt.vion; vtor,vion = 9.999508E+07 9.450048E+07 %cxline - vtor.gt.vion; vtor,vion = 1.030392E+08 9.495553E+07 %cxline - vtor.gt.vion; vtor,vion = 1.025639E+08 9.495553E+07 %cxline - vtor.gt.vion; vtor,vion = 1.011678E+08 9.363177E+07 %cxline - vtor.gt.vion; vtor,vion = 1.018339E+08 9.363177E+07 %cxline - vtor.gt.vion; vtor,vion = 1.010600E+08 9.491182E+07 %cxline - vtor.gt.vion; vtor,vion = 1.021272E+08 9.491182E+07 %cxline - vtor.gt.vion; vtor,vion = 1.178868E+08 1.169028E+08 %cxline - vtor.gt.vion; vtor,vion = 1.197243E+08 1.169028E+08 %cxline - vtor.gt.vion; vtor,vion = 1.235242E+08 1.174794E+08 %cxline - vtor.gt.vion; vtor,vion = 1.247445E+08 1.174794E+08 %cxline - vtor.gt.vion; vtor,vion = 1.407586E+08 1.399579E+08 %cxline - vtor.gt.vion; vtor,vion = 1.404172E+08 1.399579E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 838 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.473518E+08 3.438386E+08 %cxline - vtor.gt.vion; vtor,vion = 2.119755E+08 2.118843E+08 %cxline - vtor.gt.vion; vtor,vion = 2.104560E+08 2.104168E+08 %cxline - vtor.gt.vion; vtor,vion = 1.944308E+08 1.930558E+08 %cxline - vtor.gt.vion; vtor,vion = 4.045030E+08 4.028505E+08 %cxline - vtor.gt.vion; vtor,vion = 3.262596E+08 3.252878E+08 %cxline - vtor.gt.vion; vtor,vion = 1.755616E+08 1.753987E+08 %cxline - vtor.gt.vion; vtor,vion = 3.795376E+08 3.725605E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %cxline - vtor.gt.vion; vtor,vion = 6.569528E+08 6.557919E+08 %cxline - vtor.gt.vion; vtor,vion = 6.571101E+08 6.557919E+08 %cxline - vtor.gt.vion; vtor,vion = 1.619364E+08 1.609468E+08 %cxline - vtor.gt.vion; vtor,vion = 2.696072E+08 2.692283E+08 %cxline - vtor.gt.vion; vtor,vion = 1.548681E+08 1.534148E+08 %cxline - vtor.gt.vion; vtor,vion = 1.552779E+08 1.534148E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 209 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 75 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orball: in processor 0: orbit # iorb= 94 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 165 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 267 never inside plasma. %orball: in processor 0: orbit # iorb= 271 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 1517 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 110 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13422673.6264633 a. %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... %note: constrained curt @ bdy to: 13422673.6264633 a. %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13422673.6264633 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4898 - 0 (killed) + 11598 (dep) = 16496 ptcls. %depall specie #2 -> 1930 - 0 (killed) + 14252 (dep) = 16182 ptcls. %depall specie #3 -> 3299 - 0 (killed) + 13056 (dep) = 16355 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.928657E+08 1.927353E+08 %cxline - vtor.gt.vion; vtor,vion = 1.467848E+08 1.466174E+08 %cxline - vtor.gt.vion; vtor,vion = 2.821156E+08 2.813895E+08 %cxline - vtor.gt.vion; vtor,vion = 1.453561E+08 1.435633E+08 %cxline - vtor.gt.vion; vtor,vion = 1.425595E+08 1.424478E+08 %cxline - vtor.gt.vion; vtor,vion = 1.359087E+08 1.351911E+08 %cxline - vtor.gt.vion; vtor,vion = 1.265538E+08 1.265531E+08 %cxline - vtor.gt.vion; vtor,vion = 1.355113E+08 1.337193E+08 %cxline - vtor.gt.vion; vtor,vion = 1.349788E+08 1.337193E+08 %cxline - vtor.gt.vion; vtor,vion = 4.419882E+08 4.389660E+08 %orball: in processor 0: orbit # iorb= 302 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.768583E+08 4.717464E+08 %cxline - vtor.gt.vion; vtor,vion = 4.769644E+08 4.717464E+08 %cxline - vtor.gt.vion; vtor,vion = 2.619711E+08 2.612120E+08 %cxline - vtor.gt.vion; vtor,vion = 3.237262E+08 3.197304E+08 %cxline - vtor.gt.vion; vtor,vion = 2.889554E+08 2.887474E+08 %cxline - vtor.gt.vion; vtor,vion = 2.791379E+08 2.789745E+08 %cxline - vtor.gt.vion; vtor,vion = 1.868290E+08 1.858132E+08 %cxline - vtor.gt.vion; vtor,vion = 2.872805E+08 2.849334E+08 %cxline - vtor.gt.vion; vtor,vion = 3.956810E+08 3.878703E+08 %cxline - vtor.gt.vion; vtor,vion = 1.544489E+08 1.471471E+08 %cxline - vtor.gt.vion; vtor,vion = 2.630087E+08 2.596970E+08 %cxline - vtor.gt.vion; vtor,vion = 4.237108E+08 4.230646E+08 %cxline - vtor.gt.vion; vtor,vion = 1.878764E+08 1.837846E+08 %cxline - vtor.gt.vion; vtor,vion = 5.916406E+08 5.907088E+08 %cxline - vtor.gt.vion; vtor,vion = 3.028556E+08 3.022916E+08 %cxline - vtor.gt.vion; vtor,vion = 4.996126E+08 4.972462E+08 %cxline - vtor.gt.vion; vtor,vion = 5.027750E+08 4.972462E+08 %cxline - vtor.gt.vion; vtor,vion = 3.145871E+08 3.137348E+08 %cxline - vtor.gt.vion; vtor,vion = 2.066666E+08 2.063556E+08 %cxline - vtor.gt.vion; vtor,vion = 2.073963E+08 2.063556E+08 %cxline - vtor.gt.vion; vtor,vion = 2.158136E+08 2.151127E+08 %cxline - vtor.gt.vion; vtor,vion = 2.079446E+08 2.069998E+08 %cxline - vtor.gt.vion; vtor,vion = 4.522687E+08 4.490462E+08 %cxline - vtor.gt.vion; vtor,vion = 3.046888E+08 3.008772E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orball: in processor 0: orbit # iorb= 83 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orball: in processor 0: orbit # iorb= 124 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 137 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 212 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 213 never inside plasma. %orball: in processor 0: orbit # iorb= 223 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 235 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 244 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0160E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orball: in processor 0: orbit # iorb= 274 never inside plasma. %orball: in processor 0: orbit # iorb= 365 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 111 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13434154.7241183 a. %note: constrained curt @ bdy to: 13434154.7241183 a. %note: constrained curt @ bdy to: 13434154.7241183 a. nbstart... %note: constrained curt @ bdy to: 13434154.7241183 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13434154.7241183 a. %note: constrained curt @ bdy to: 13434154.7241183 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13434154.7241183 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13434154.7241183 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5181 - 0 (killed) + 11391 (dep) = 16572 ptcls. %depall specie #2 -> 1967 - 0 (killed) + 14225 (dep) = 16192 ptcls. %depall specie #3 -> 3574 - 0 (killed) + 12846 (dep) = 16420 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.975754E+08 2.971899E+08 %cxline - vtor.gt.vion; vtor,vion = 9.978110E+07 9.930051E+07 %cxline - vtor.gt.vion; vtor,vion = 3.202886E+08 3.199894E+08 %cxline - vtor.gt.vion; vtor,vion = 6.028011E+08 6.000562E+08 %cxline - vtor.gt.vion; vtor,vion = 2.424484E+08 2.417404E+08 %cxline - vtor.gt.vion; vtor,vion = 2.995659E+08 2.987038E+08 %cxline - vtor.gt.vion; vtor,vion = 2.790264E+08 2.768079E+08 %cxline - vtor.gt.vion; vtor,vion = 2.367476E+08 2.366325E+08 %cxline - vtor.gt.vion; vtor,vion = 2.367145E+08 2.366325E+08 %cxline - vtor.gt.vion; vtor,vion = 2.854527E+08 2.831963E+08 %cxline - vtor.gt.vion; vtor,vion = 2.724441E+08 2.713797E+08 %cxline - vtor.gt.vion; vtor,vion = 7.999867E+08 7.939461E+08 %cxline - vtor.gt.vion; vtor,vion = 1.803432E+08 1.754080E+08 %cxline - vtor.gt.vion; vtor,vion = 1.763550E+08 1.754080E+08 %cxline - vtor.gt.vion; vtor,vion = 1.749885E+08 1.748615E+08 %cxline - vtor.gt.vion; vtor,vion = 1.772190E+08 1.759567E+08 %cxline - vtor.gt.vion; vtor,vion = 1.763567E+08 1.759567E+08 %cxline - vtor.gt.vion; vtor,vion = 3.053068E+08 3.021483E+08 %cxline - vtor.gt.vion; vtor,vion = 2.081942E+08 2.056114E+08 %orball: in processor 0: orbit # iorb= 1173 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.692139E+08 1.638866E+08 %cxline - vtor.gt.vion; vtor,vion = 1.684776E+08 1.638866E+08 %cxline - vtor.gt.vion; vtor,vion = 1.927844E+08 1.926883E+08 %cxline - vtor.gt.vion; vtor,vion = 1.180074E+08 1.169552E+08 %cxline - vtor.gt.vion; vtor,vion = 3.154559E+08 3.061623E+08 %cxline - vtor.gt.vion; vtor,vion = 2.213469E+08 2.210540E+08 %cxline - vtor.gt.vion; vtor,vion = 3.104845E+08 3.091019E+08 %cxline - vtor.gt.vion; vtor,vion = 2.225028E+08 2.219668E+08 %cxline - vtor.gt.vion; vtor,vion = 3.189719E+08 3.159288E+08 %cxline - vtor.gt.vion; vtor,vion = 3.210269E+08 3.159288E+08 %cxline - vtor.gt.vion; vtor,vion = 2.269684E+08 2.262104E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 47 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 53 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 140 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 183 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orball: in processor 0: orbit # iorb= 417 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0209E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 112 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13450792.5397369 a. %note: constrained curt @ bdy to: 13450792.5397369 a. %note: constrained curt @ bdy to: 13450792.5397369 a. %note: constrained curt @ bdy to: 13450792.5397369 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13450792.5397369 a. %note: constrained curt @ bdy to: 13450792.5397369 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13450792.5397369 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13450792.5397369 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5372 - 0 (killed) + 10628 (dep) = 16000 ptcls. %depall specie #2 -> 2023 - 0 (killed) + 13977 (dep) = 16000 ptcls. %depall specie #3 -> 3822 - 0 (killed) + 12178 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.028384E+08 2.015204E+08 %cxline - vtor.gt.vion; vtor,vion = 2.022730E+08 2.015204E+08 %cxline - vtor.gt.vion; vtor,vion = 2.364341E+08 2.361475E+08 %cxline - vtor.gt.vion; vtor,vion = 1.343307E+08 1.336953E+08 %cxline - vtor.gt.vion; vtor,vion = 2.363912E+08 2.355733E+08 %cxline - vtor.gt.vion; vtor,vion = 2.356412E+08 2.355733E+08 %cxline - vtor.gt.vion; vtor,vion = 1.689277E+08 1.683836E+08 %cxline - vtor.gt.vion; vtor,vion = 1.686710E+08 1.635442E+08 %cxline - vtor.gt.vion; vtor,vion = 1.684245E+08 1.635442E+08 %cxline - vtor.gt.vion; vtor,vion = 1.247573E+08 1.243593E+08 %cxline - vtor.gt.vion; vtor,vion = 1.593265E+08 1.561366E+08 %cxline - vtor.gt.vion; vtor,vion = 2.016454E+08 2.008154E+08 %cxline - vtor.gt.vion; vtor,vion = 1.756484E+08 1.720096E+08 %cxline - vtor.gt.vion; vtor,vion = 1.755250E+08 1.720096E+08 %cxline - vtor.gt.vion; vtor,vion = 5.320857E+08 5.315925E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 546 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.394468E+07 5.152590E+07 %cxline - vtor.gt.vion; vtor,vion = 5.468846E+07 5.152590E+07 %cxline - vtor.gt.vion; vtor,vion = 6.169520E+07 5.152590E+07 %cxline - vtor.gt.vion; vtor,vion = 6.150988E+07 5.152590E+07 %cxline - vtor.gt.vion; vtor,vion = 1.650315E+08 1.641504E+08 %cxline - vtor.gt.vion; vtor,vion = 1.079496E+08 1.053664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.070030E+08 1.053664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.407654E+08 1.391377E+08 %cxline - vtor.gt.vion; vtor,vion = 1.412559E+08 1.391377E+08 %cxline - vtor.gt.vion; vtor,vion = 3.665237E+08 3.655494E+08 %cxline - vtor.gt.vion; vtor,vion = 3.524940E+08 3.515665E+08 %cxline - vtor.gt.vion; vtor,vion = 1.642436E+08 1.635661E+08 %cxline - vtor.gt.vion; vtor,vion = 1.566586E+08 1.563669E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599306E+08 1.563669E+08 %cxline - vtor.gt.vion; vtor,vion = 1.646308E+08 1.628081E+08 %cxline - vtor.gt.vion; vtor,vion = 2.193135E+08 2.192020E+08 %cxline - vtor.gt.vion; vtor,vion = 2.494516E+08 2.490227E+08 %cxline - vtor.gt.vion; vtor,vion = 3.446225E+08 3.443068E+08 %cxline - vtor.gt.vion; vtor,vion = 2.468032E+08 2.463372E+08 %cxline - vtor.gt.vion; vtor,vion = 2.469000E+08 2.463372E+08 %cxline - vtor.gt.vion; vtor,vion = 1.019661E+08 1.001588E+08 %cxline - vtor.gt.vion; vtor,vion = 1.019806E+08 1.001588E+08 %cxline - vtor.gt.vion; vtor,vion = 1.112715E+08 1.081945E+08 %cxline - vtor.gt.vion; vtor,vion = 1.096645E+08 1.081945E+08 %cxline - vtor.gt.vion; vtor,vion = 6.891394E+07 6.854751E+07 %cxline - vtor.gt.vion; vtor,vion = 7.084754E+07 6.854751E+07 %cxline - vtor.gt.vion; vtor,vion = 2.002452E+08 1.991217E+08 %cxline - vtor.gt.vion; vtor,vion = 2.177382E+08 2.068985E+08 %cxline - vtor.gt.vion; vtor,vion = 2.154796E+08 2.068985E+08 %cxline - vtor.gt.vion; vtor,vion = 2.156862E+08 2.071784E+08 %cxline - vtor.gt.vion; vtor,vion = 2.172463E+08 2.071784E+08 %cxline - vtor.gt.vion; vtor,vion = 2.280302E+08 2.277099E+08 %cxline - vtor.gt.vion; vtor,vion = 2.282809E+08 2.277099E+08 %cxline - vtor.gt.vion; vtor,vion = 2.255133E+08 2.253933E+08 %cxline - vtor.gt.vion; vtor,vion = 2.257744E+08 2.253933E+08 %cxline - vtor.gt.vion; vtor,vion = 1.131337E+08 1.125455E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 52 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 92 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 104 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 169 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 237 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 180 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0194E+00 %orball: in processor 0: orbit # iorb= 330 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 366 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 442 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 113 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13657249.1157218 a. %note: constrained curt @ bdy to: 13657249.1157218 a. %note: constrained curt @ bdy to: 13657249.1157218 a. %note: constrained curt @ bdy to: 13657249.1157218 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13657249.1157218 a. nbstart... %note: constrained curt @ bdy to: 13657249.1157218 a. nbstart... %note: constrained curt @ bdy to: 13657249.1157218 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13657249.1157218 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5278 - 0 (killed) + 10722 (dep) = 16000 ptcls. %depall specie #2 -> 1905 - 0 (killed) + 14095 (dep) = 16000 ptcls. %depall specie #3 -> 3594 - 0 (killed) + 12406 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.555513E+08 1.544889E+08 %cxline - vtor.gt.vion; vtor,vion = 2.338275E+08 2.326214E+08 %cxline - vtor.gt.vion; vtor,vion = 1.107670E+08 1.089269E+08 %cxline - vtor.gt.vion; vtor,vion = 2.744970E+08 2.732922E+08 %cxline - vtor.gt.vion; vtor,vion = 9.190892E+07 9.043826E+07 %cxline - vtor.gt.vion; vtor,vion = 4.403799E+08 4.401710E+08 %cxline - vtor.gt.vion; vtor,vion = 7.727235E+07 7.719547E+07 %cxline - vtor.gt.vion; vtor,vion = 6.168985E+07 6.034049E+07 %cxline - vtor.gt.vion; vtor,vion = 2.145800E+08 2.145094E+08 %cxline - vtor.gt.vion; vtor,vion = 1.490171E+08 1.488445E+08 %cxline - vtor.gt.vion; vtor,vion = 2.594505E+08 2.588751E+08 %cxline - vtor.gt.vion; vtor,vion = 1.239087E+08 1.184302E+08 %cxline - vtor.gt.vion; vtor,vion = 1.216088E+08 1.184302E+08 %cxline - vtor.gt.vion; vtor,vion = 1.402496E+08 1.338013E+08 %cxline - vtor.gt.vion; vtor,vion = 1.395438E+08 1.338013E+08 %cxline - vtor.gt.vion; vtor,vion = 1.341489E+08 1.337345E+08 %cxline - vtor.gt.vion; vtor,vion = 1.367784E+08 1.320172E+08 %cxline - vtor.gt.vion; vtor,vion = 1.354251E+08 1.320172E+08 %cxline - vtor.gt.vion; vtor,vion = 1.362513E+08 1.336608E+08 %cxline - vtor.gt.vion; vtor,vion = 1.360478E+08 1.336608E+08 %cxline - vtor.gt.vion; vtor,vion = 4.043258E+08 4.038573E+08 %cxline - vtor.gt.vion; vtor,vion = 2.047785E+08 2.019135E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124408E+08 2.087715E+08 %cxline - vtor.gt.vion; vtor,vion = 1.639192E+08 1.633538E+08 %cxline - vtor.gt.vion; vtor,vion = 2.590430E+08 2.581157E+08 %cxline - vtor.gt.vion; vtor,vion = 1.002113E+08 9.945701E+07 %cxline - vtor.gt.vion; vtor,vion = 1.003367E+08 9.945701E+07 %cxline - vtor.gt.vion; vtor,vion = 2.567754E+08 2.567092E+08 %cxline - vtor.gt.vion; vtor,vion = 2.533637E+08 2.527549E+08 %cxline - vtor.gt.vion; vtor,vion = 2.657600E+08 2.655532E+08 %cxline - vtor.gt.vion; vtor,vion = 2.451882E+08 2.420103E+08 %orball: in processor 0: orbit # iorb= 1323 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.252421E+08 1.246374E+08 %cxline - vtor.gt.vion; vtor,vion = 2.420962E+08 2.363721E+08 %cxline - vtor.gt.vion; vtor,vion = 2.385844E+08 2.363721E+08 %cxline - vtor.gt.vion; vtor,vion = 1.007184E+08 1.004290E+08 %cxline - vtor.gt.vion; vtor,vion = 9.956901E+07 9.924182E+07 %cxline - vtor.gt.vion; vtor,vion = 9.993861E+07 9.924182E+07 %cxline - vtor.gt.vion; vtor,vion = 8.303124E+07 8.210950E+07 %cxline - vtor.gt.vion; vtor,vion = 2.023967E+08 2.021028E+08 %cxline - vtor.gt.vion; vtor,vion = 2.549069E+08 2.541204E+08 %cxline - vtor.gt.vion; vtor,vion = 1.455999E+08 1.450503E+08 %cxline - vtor.gt.vion; vtor,vion = 1.444181E+08 1.443018E+08 %cxline - vtor.gt.vion; vtor,vion = 1.404606E+08 1.400148E+08 %cxline - vtor.gt.vion; vtor,vion = 2.470227E+08 2.445564E+08 %cxline - vtor.gt.vion; vtor,vion = 1.643280E+08 1.614682E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orball: in processor 0: orbit # iorb= 227 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 86 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 114 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13796324.1573005 a. %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13796324.1573005 a. %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13796324.1573005 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.191908848460416E+016 129322196423699. zfext1,zfext2= 1.010520585287551E+018 3.495593781332759E+017 %xjaset -- root not found, trying standard fixup iteration= 1 %depall specie #1 -> 4721 - 0 (killed) + 11279 (dep) = 16000 ptcls. %depall specie #2 -> 1658 - 0 (killed) + 14342 (dep) = 16000 ptcls. %depall specie #3 -> 3084 - 0 (killed) + 12916 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %cxline - vtor.gt.vion; vtor,vion = 1.002706E+08 9.844300E+07 %cxline - vtor.gt.vion; vtor,vion = 1.427092E+08 1.395002E+08 %cxline - vtor.gt.vion; vtor,vion = 9.748544E+07 9.549264E+07 %cxline - vtor.gt.vion; vtor,vion = 2.057866E+08 1.975759E+08 %cxline - vtor.gt.vion; vtor,vion = 9.034002E+07 8.327230E+07 %cxline - vtor.gt.vion; vtor,vion = 8.936331E+07 8.327230E+07 %cxline - vtor.gt.vion; vtor,vion = 9.048063E+07 8.363968E+07 %cxline - vtor.gt.vion; vtor,vion = 9.139830E+07 8.363968E+07 %cxline - vtor.gt.vion; vtor,vion = 8.506099E+07 8.329033E+07 %cxline - vtor.gt.vion; vtor,vion = 8.515436E+07 8.329033E+07 %cxline - vtor.gt.vion; vtor,vion = 8.727113E+07 8.329033E+07 %cxline - vtor.gt.vion; vtor,vion = 8.757816E+07 8.329033E+07 %cxline - vtor.gt.vion; vtor,vion = 9.173843E+07 8.293250E+07 %cxline - vtor.gt.vion; vtor,vion = 9.218820E+07 8.293250E+07 %cxline - vtor.gt.vion; vtor,vion = 1.500450E+08 1.441873E+08 %cxline - vtor.gt.vion; vtor,vion = 1.950816E+08 1.946839E+08 %cxline - vtor.gt.vion; vtor,vion = 1.949142E+08 1.946839E+08 %cxline - vtor.gt.vion; vtor,vion = 1.529408E+08 1.527926E+08 %cxline - vtor.gt.vion; vtor,vion = 4.619389E+08 4.588699E+08 %cxline - vtor.gt.vion; vtor,vion = 2.547242E+08 2.543803E+08 %cxline - vtor.gt.vion; vtor,vion = 2.535571E+08 2.533323E+08 %orball: in processor 0: orbit # iorb= 1028 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.652387E+08 2.648593E+08 %cxline - vtor.gt.vion; vtor,vion = 3.291212E+08 3.280750E+08 %cxline - vtor.gt.vion; vtor,vion = 1.412105E+08 1.379692E+08 %cxline - vtor.gt.vion; vtor,vion = 1.433869E+08 1.379692E+08 %cxline - vtor.gt.vion; vtor,vion = 2.463272E+08 2.423895E+08 %cxline - vtor.gt.vion; vtor,vion = 1.211557E+08 1.144964E+08 %cxline - vtor.gt.vion; vtor,vion = 9.521304E+07 9.209152E+07 %cxline - vtor.gt.vion; vtor,vion = 1.086834E+08 1.085521E+08 %cxline - vtor.gt.vion; vtor,vion = 4.672882E+07 4.062439E+07 %cxline - vtor.gt.vion; vtor,vion = 4.638832E+07 4.062439E+07 %cxline - vtor.gt.vion; vtor,vion = 5.311703E+08 5.300969E+08 %cxline - vtor.gt.vion; vtor,vion = 2.472168E+08 2.436870E+08 %cxline - vtor.gt.vion; vtor,vion = 3.398829E+08 3.395528E+08 %cxline - vtor.gt.vion; vtor,vion = 2.053320E+08 2.037570E+08 %cxline - vtor.gt.vion; vtor,vion = 1.929760E+08 1.929613E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 100 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 143 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 115 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13837326.5210033 a. %note: constrained curt @ bdy to: 13837326.5210033 a. %note: constrained curt @ bdy to: 13837326.5210033 a. nbstart... %note: constrained curt @ bdy to: 13837326.5210033 a. %note: constrained curt @ bdy to: 13837326.5210033 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13837326.5210033 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13837326.5210033 a. nbstart... %note: constrained curt @ bdy to: 13837326.5210033 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4289 - 0 (killed) + 11711 (dep) = 16000 ptcls. %depall specie #2 -> 1402 - 0 (killed) + 14598 (dep) = 16000 ptcls. %depall specie #3 -> 2739 - 0 (killed) + 13261 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.498226E+08 1.461628E+08 %cxline - vtor.gt.vion; vtor,vion = 1.537949E+08 1.461628E+08 %cxline - vtor.gt.vion; vtor,vion = 1.471408E+08 1.462512E+08 %cxline - vtor.gt.vion; vtor,vion = 1.544323E+08 1.485814E+08 %cxline - vtor.gt.vion; vtor,vion = 6.930111E+07 6.536035E+07 %cxline - vtor.gt.vion; vtor,vion = 7.019472E+07 6.536035E+07 %cxline - vtor.gt.vion; vtor,vion = 9.400260E+07 9.345461E+07 %cxline - vtor.gt.vion; vtor,vion = 9.400151E+07 9.345461E+07 %cxline - vtor.gt.vion; vtor,vion = 2.422251E+08 2.370350E+08 %cxline - vtor.gt.vion; vtor,vion = 4.993141E+08 4.987883E+08 %cxline - vtor.gt.vion; vtor,vion = 4.988521E+08 4.987883E+08 %cxline - vtor.gt.vion; vtor,vion = 2.116179E+08 2.112122E+08 %cxline - vtor.gt.vion; vtor,vion = 1.734032E+08 1.717504E+08 %cxline - vtor.gt.vion; vtor,vion = 1.750213E+08 1.717504E+08 %cxline - vtor.gt.vion; vtor,vion = 1.718861E+08 1.717204E+08 %cxline - vtor.gt.vion; vtor,vion = 4.767561E+08 4.749434E+08 %cxline - vtor.gt.vion; vtor,vion = 9.570209E+07 9.564995E+07 %cxline - vtor.gt.vion; vtor,vion = 2.669858E+08 2.663058E+08 %cxline - vtor.gt.vion; vtor,vion = 3.704942E+08 3.701811E+08 %cxline - vtor.gt.vion; vtor,vion = 4.085872E+08 4.041338E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 28 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 116 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13616102.9728286 a. %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %note: constrained curt @ bdy to: 13616102.9728286 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3808 - 0 (killed) + 12192 (dep) = 16000 ptcls. %depall specie #2 -> 1270 - 0 (killed) + 14759 (dep) = 16029 ptcls. %depall specie #3 -> 2272 - 0 (killed) + 13728 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.513505E+08 1.467841E+08 %cxline - vtor.gt.vion; vtor,vion = 1.479767E+08 1.411986E+08 %cxline - vtor.gt.vion; vtor,vion = 1.484610E+08 1.411986E+08 %cxline - vtor.gt.vion; vtor,vion = 2.066234E+08 2.041851E+08 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.377907E+08 3.359500E+08 %cxline - vtor.gt.vion; vtor,vion = 1.421447E+08 1.419146E+08 %cxline - vtor.gt.vion; vtor,vion = 1.988214E+08 1.987717E+08 %cxline - vtor.gt.vion; vtor,vion = 1.354292E+08 1.353961E+08 %cxline - vtor.gt.vion; vtor,vion = 1.406271E+08 1.379806E+08 %cxline - vtor.gt.vion; vtor,vion = 1.992675E+08 1.990336E+08 %cxline - vtor.gt.vion; vtor,vion = 1.861568E+08 1.859874E+08 %cxline - vtor.gt.vion; vtor,vion = 2.004209E+08 1.981316E+08 %cxline - vtor.gt.vion; vtor,vion = 2.839219E+08 2.826799E+08 %cxline - vtor.gt.vion; vtor,vion = 2.199598E+08 2.199175E+08 %cxline - vtor.gt.vion; vtor,vion = 2.757367E+08 2.753729E+08 %cxline - vtor.gt.vion; vtor,vion = 1.768693E+08 1.767888E+08 %cxline - vtor.gt.vion; vtor,vion = 3.100014E+08 3.091745E+08 %cxline - vtor.gt.vion; vtor,vion = 2.292059E+08 2.265046E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orball: in processor 0: orbit # iorb= 8 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0186E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 40 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 159 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orball: in processor 0: orbit # iorb= 242 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orball: in processor 0: orbit # iorb= 246 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 117 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13578198.7862166 a. %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13578198.7862166 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.484308379829837E+016 129322196423699. zfext1,zfext2= 1.021472241406456E+018 3.460130929947084E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.471376160187467E+016 1.293221964236989E+015 zfext1,zfext2= 1.020179019442219E+018 3.447198710304714E+017 %depall specie #1 -> 3509 - 0 (killed) + 13058 (dep) = 16567 ptcls. %depall specie #2 -> 1317 - 0 (killed) + 14958 (dep) = 16275 ptcls. %depall specie #3 -> 2129 - 0 (killed) + 14337 (dep) = 16466 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 4.125446E+08 4.124803E+08 %orball: in processor 0: orbit # iorb= 102 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.549174E+08 1.548936E+08 %cxline - vtor.gt.vion; vtor,vion = 1.552675E+08 1.548936E+08 %cxline - vtor.gt.vion; vtor,vion = 1.535248E+08 1.532075E+08 %cxline - vtor.gt.vion; vtor,vion = 1.601302E+08 1.600843E+08 %cxline - vtor.gt.vion; vtor,vion = 2.342959E+08 2.273887E+08 %cxline - vtor.gt.vion; vtor,vion = 2.854569E+08 2.851934E+08 %cxline - vtor.gt.vion; vtor,vion = 1.793516E+08 1.792298E+08 %cxline - vtor.gt.vion; vtor,vion = 1.806480E+08 1.805186E+08 %cxline - vtor.gt.vion; vtor,vion = 1.928043E+08 1.920739E+08 %cxline - vtor.gt.vion; vtor,vion = 1.396670E+08 1.396091E+08 %cxline - vtor.gt.vion; vtor,vion = 2.400169E+08 2.379089E+08 %cxline - vtor.gt.vion; vtor,vion = 1.729194E+08 1.722007E+08 %cxline - vtor.gt.vion; vtor,vion = 1.691674E+08 1.684181E+08 %cxline - vtor.gt.vion; vtor,vion = 1.727075E+08 1.723258E+08 %cxline - vtor.gt.vion; vtor,vion = 9.008896E+07 8.875635E+07 %cxline - vtor.gt.vion; vtor,vion = 2.301933E+08 2.300293E+08 %cxline - vtor.gt.vion; vtor,vion = 1.946559E+08 1.944695E+08 %cxline - vtor.gt.vion; vtor,vion = 3.409079E+08 3.360522E+08 %cxline - vtor.gt.vion; vtor,vion = 3.191527E+08 3.187805E+08 %cxline - vtor.gt.vion; vtor,vion = 3.406969E+08 3.390510E+08 %cxline - vtor.gt.vion; vtor,vion = 3.067896E+08 3.048594E+08 %cxline - vtor.gt.vion; vtor,vion = 3.159725E+08 3.145945E+08 %cxline - vtor.gt.vion; vtor,vion = 3.154181E+08 3.145945E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 87 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orball: in processor 0: orbit # iorb= 146 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orball: in processor 0: orbit # iorb= 147 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0197E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0288E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 118 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13510359.2077512 a. %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13510359.2077512 a. %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... %note: constrained curt @ bdy to: 13510359.2077512 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3516 - 0 (killed) + 12714 (dep) = 16230 ptcls. %depall specie #2 -> 1355 - 0 (killed) + 14721 (dep) = 16076 ptcls. %depall specie #3 -> 2153 - 0 (killed) + 14001 (dep) = 16154 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.485316E+08 2.462312E+08 %cxline - vtor.gt.vion; vtor,vion = 1.665441E+08 1.613072E+08 %cxline - vtor.gt.vion; vtor,vion = 3.050804E+08 3.047701E+08 %cxline - vtor.gt.vion; vtor,vion = 1.375922E+08 1.375813E+08 %cxline - vtor.gt.vion; vtor,vion = 2.525404E+08 2.515024E+08 %cxline - vtor.gt.vion; vtor,vion = 2.155219E+08 2.149163E+08 %cxline - vtor.gt.vion; vtor,vion = 2.212112E+08 2.149163E+08 %cxline - vtor.gt.vion; vtor,vion = 2.226754E+08 2.149163E+08 %cxline - vtor.gt.vion; vtor,vion = 2.184458E+08 2.143986E+08 %cxline - vtor.gt.vion; vtor,vion = 2.166621E+08 2.143986E+08 %cxline - vtor.gt.vion; vtor,vion = 1.830616E+08 1.821503E+08 %cxline - vtor.gt.vion; vtor,vion = 1.839485E+08 1.821503E+08 %cxline - vtor.gt.vion; vtor,vion = 9.782609E+07 9.298069E+07 %cxline - vtor.gt.vion; vtor,vion = 2.733522E+08 2.731305E+08 %cxline - vtor.gt.vion; vtor,vion = 4.550062E+08 4.502700E+08 %cxline - vtor.gt.vion; vtor,vion = 1.240952E+08 1.228781E+08 %cxline - vtor.gt.vion; vtor,vion = 6.107019E+08 6.099981E+08 %cxline - vtor.gt.vion; vtor,vion = 1.798973E+08 1.797581E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124391E+08 2.122943E+08 %cxline - vtor.gt.vion; vtor,vion = 2.713996E+08 2.690484E+08 %cxline - vtor.gt.vion; vtor,vion = 5.371301E+08 5.344091E+08 %cxline - vtor.gt.vion; vtor,vion = 4.127787E+08 4.111053E+08 %cxline - vtor.gt.vion; vtor,vion = 3.000960E+08 2.987696E+08 %cxline - vtor.gt.vion; vtor,vion = 2.038699E+08 2.017287E+08 %cxline - vtor.gt.vion; vtor,vion = 5.576124E+08 5.564302E+08 %cxline - vtor.gt.vion; vtor,vion = 3.440285E+08 3.424602E+08 %cxline - vtor.gt.vion; vtor,vion = 3.104334E+08 3.101938E+08 %cxline - vtor.gt.vion; vtor,vion = 3.067697E+08 3.061871E+08 %cxline - vtor.gt.vion; vtor,vion = 6.211304E+08 6.197483E+08 %cxline - vtor.gt.vion; vtor,vion = 2.527867E+08 2.522909E+08 %cxline - vtor.gt.vion; vtor,vion = 2.067897E+08 2.066622E+08 %cxline - vtor.gt.vion; vtor,vion = 2.067628E+08 2.066622E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orball: in processor 0: orbit # iorb= 150 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orball: in processor 0: orbit # iorb= 133 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 205 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 119 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13501587.4127433 a. %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... %note: constrained curt @ bdy to: 13501587.4127433 a. %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13501587.4127433 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3392 - 0 (killed) + 13219 (dep) = 16611 ptcls. %depall specie #2 -> 1380 - 0 (killed) + 14903 (dep) = 16283 ptcls. %depall specie #3 -> 2123 - 0 (killed) + 14361 (dep) = 16484 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 5.126335E+08 5.093979E+08 %cxline - vtor.gt.vion; vtor,vion = 5.153311E+08 5.093979E+08 %orball: in processor 0: orbit # iorb= 44 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.395783E+08 2.345619E+08 %cxline - vtor.gt.vion; vtor,vion = 1.183893E+08 1.158565E+08 %cxline - vtor.gt.vion; vtor,vion = 1.199386E+08 1.158565E+08 %cxline - vtor.gt.vion; vtor,vion = 1.273644E+08 1.271908E+08 %cxline - vtor.gt.vion; vtor,vion = 2.369287E+08 2.358428E+08 %cxline - vtor.gt.vion; vtor,vion = 3.047001E+08 3.040908E+08 %cxline - vtor.gt.vion; vtor,vion = 2.457997E+08 2.454280E+08 %cxline - vtor.gt.vion; vtor,vion = 1.278070E+08 1.243278E+08 %cxline - vtor.gt.vion; vtor,vion = 1.124908E+08 1.124026E+08 %cxline - vtor.gt.vion; vtor,vion = 2.247606E+08 2.158286E+08 %cxline - vtor.gt.vion; vtor,vion = 1.231686E+08 1.223557E+08 %cxline - vtor.gt.vion; vtor,vion = 3.031013E+08 2.975470E+08 %cxline - vtor.gt.vion; vtor,vion = 6.142446E+08 6.141234E+08 %cxline - vtor.gt.vion; vtor,vion = 6.983395E+07 6.741333E+07 %cxline - vtor.gt.vion; vtor,vion = 4.894109E+07 4.780159E+07 %cxline - vtor.gt.vion; vtor,vion = 4.839218E+08 4.823005E+08 %cxline - vtor.gt.vion; vtor,vion = 2.834583E+08 2.813660E+08 %cxline - vtor.gt.vion; vtor,vion = 9.945059E+07 9.851414E+07 %cxline - vtor.gt.vion; vtor,vion = 9.923497E+07 9.862973E+07 %orball: in processor 0: orbit # iorb= 893 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.733497E+08 2.712680E+08 %cxline - vtor.gt.vion; vtor,vion = 3.446801E+08 3.442185E+08 %cxline - vtor.gt.vion; vtor,vion = 3.448401E+08 3.442185E+08 %cxline - vtor.gt.vion; vtor,vion = 4.048317E+08 4.038579E+08 %cxline - vtor.gt.vion; vtor,vion = 2.909776E+08 2.900472E+08 %cxline - vtor.gt.vion; vtor,vion = 2.155776E+08 2.091740E+08 %cxline - vtor.gt.vion; vtor,vion = 5.283301E+08 5.274630E+08 %cxline - vtor.gt.vion; vtor,vion = 4.871506E+08 4.868394E+08 %cxline - vtor.gt.vion; vtor,vion = 2.000963E+08 1.938818E+08 %cxline - vtor.gt.vion; vtor,vion = 4.616710E+08 4.523554E+08 %cxline - vtor.gt.vion; vtor,vion = 4.595428E+08 4.523554E+08 %cxline - vtor.gt.vion; vtor,vion = 3.665883E+08 3.622349E+08 %cxline - vtor.gt.vion; vtor,vion = 4.987746E+08 4.930011E+08 %cxline - vtor.gt.vion; vtor,vion = 4.962248E+08 4.930011E+08 %cxline - vtor.gt.vion; vtor,vion = 2.322260E+08 2.316630E+08 %cxline - vtor.gt.vion; vtor,vion = 4.533236E+08 4.530392E+08 %cxline - vtor.gt.vion; vtor,vion = 3.212789E+08 3.208427E+08 %cxline - vtor.gt.vion; vtor,vion = 2.610280E+08 2.606785E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 28 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 67 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 93 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 156 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 160 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 167 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orball: in processor 0: orbit # iorb= 23 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 36 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orball: in processor 0: orbit # iorb= 39 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0189E+00 %orball: in processor 0: orbit # iorb= 69 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orball: in processor 0: orbit # iorb= 156 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0222E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 120 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... %note: constrained curt @ bdy to: 13447939.9695291 a. %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... %note: constrained curt @ bdy to: 13447939.9695291 a. nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13447939.9695291 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3622 - 0 (killed) + 12915 (dep) = 16537 ptcls. %depall specie #2 -> 1480 - 0 (killed) + 14728 (dep) = 16208 ptcls. %depall specie #3 -> 2321 - 0 (killed) + 14062 (dep) = 16383 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.863546E+08 2.858855E+08 %cxline - vtor.gt.vion; vtor,vion = 6.839118E+07 6.691309E+07 %cxline - vtor.gt.vion; vtor,vion = 2.705572E+08 2.670073E+08 %cxline - vtor.gt.vion; vtor,vion = 2.013466E+08 2.001601E+08 %cxline - vtor.gt.vion; vtor,vion = 8.379623E+07 8.021537E+07 %cxline - vtor.gt.vion; vtor,vion = 5.682880E+08 5.677342E+08 %cxline - vtor.gt.vion; vtor,vion = 2.741668E+08 2.716840E+08 %cxline - vtor.gt.vion; vtor,vion = 1.899171E+08 1.886239E+08 %cxline - vtor.gt.vion; vtor,vion = 1.875083E+08 1.843349E+08 %cxline - vtor.gt.vion; vtor,vion = 3.166520E+08 3.165488E+08 %cxline - vtor.gt.vion; vtor,vion = 4.420586E+08 4.398480E+08 %cxline - vtor.gt.vion; vtor,vion = 1.395594E+08 1.382670E+08 %cxline - vtor.gt.vion; vtor,vion = 2.381357E+08 2.356707E+08 %cxline - vtor.gt.vion; vtor,vion = 2.108038E+08 2.107263E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %cxline - vtor.gt.vion; vtor,vion = 2.718115E+08 2.717034E+08 %cxline - vtor.gt.vion; vtor,vion = 6.078087E+08 6.074628E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orball: in processor 0: orbit # iorb= 72 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 81 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 170 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 189 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0274E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orball: in processor 0: orbit # iorb= 6 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 84 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 122 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 145 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 180 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 189 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 121 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13434884.3162828 a. %note: constrained curt @ bdy to: 13434884.3162828 a. %note: constrained curt @ bdy to: 13434884.3162828 a. nbstart... %note: constrained curt @ bdy to: 13434884.3162828 a. nbstart... %note: constrained curt @ bdy to: 13434884.3162828 a. %note: constrained curt @ bdy to: 13434884.3162828 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13434884.3162828 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13434884.3162828 a. nbstart... %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3591 - 0 (killed) + 12831 (dep) = 16422 ptcls. %depall specie #2 -> 1526 - 0 (killed) + 14654 (dep) = 16180 ptcls. %depall specie #3 -> 2435 - 0 (killed) + 13897 (dep) = 16332 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.226068E+08 1.204837E+08 %cxline - vtor.gt.vion; vtor,vion = 4.780222E+08 4.599872E+08 %cxline - vtor.gt.vion; vtor,vion = 3.790372E+08 3.717872E+08 %cxline - vtor.gt.vion; vtor,vion = 9.724669E+07 9.494885E+07 %cxline - vtor.gt.vion; vtor,vion = 2.154130E+08 2.135866E+08 %cxline - vtor.gt.vion; vtor,vion = 1.500284E+08 1.479664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.481378E+08 1.473682E+08 %cxline - vtor.gt.vion; vtor,vion = 1.485659E+08 1.473682E+08 %cxline - vtor.gt.vion; vtor,vion = 2.157365E+08 2.132057E+08 %cxline - vtor.gt.vion; vtor,vion = 2.503519E+08 2.502194E+08 %cxline - vtor.gt.vion; vtor,vion = 1.569924E+08 1.545860E+08 %cxline - vtor.gt.vion; vtor,vion = 1.971651E+08 1.970928E+08 %cxline - vtor.gt.vion; vtor,vion = 2.148650E+08 2.077906E+08 %cxline - vtor.gt.vion; vtor,vion = 3.459474E+08 3.345997E+08 %cxline - vtor.gt.vion; vtor,vion = 2.063057E+08 2.059816E+08 %cxline - vtor.gt.vion; vtor,vion = 2.136987E+08 2.132919E+08 %cxline - vtor.gt.vion; vtor,vion = 2.136952E+08 2.132919E+08 %cxline - vtor.gt.vion; vtor,vion = 3.199482E+08 3.198739E+08 %cxline - vtor.gt.vion; vtor,vion = 2.918615E+08 2.908327E+08 %cxline - vtor.gt.vion; vtor,vion = 2.956438E+08 2.935242E+08 %cxline - vtor.gt.vion; vtor,vion = 5.121131E+08 5.117596E+08 %cxline - vtor.gt.vion; vtor,vion = 2.984729E+08 2.969737E+08 %cxline - vtor.gt.vion; vtor,vion = 2.732239E+08 2.723443E+08 %cxline - vtor.gt.vion; vtor,vion = 5.093129E+08 5.064411E+08 %cxline - vtor.gt.vion; vtor,vion = 3.664399E+08 3.654082E+08 %cxline - vtor.gt.vion; vtor,vion = 3.236938E+08 3.133593E+08 %cxline - vtor.gt.vion; vtor,vion = 9.466792E+07 9.350101E+07 %cxline - vtor.gt.vion; vtor,vion = 4.304018E+08 4.222023E+08 %cxline - vtor.gt.vion; vtor,vion = 1.455583E+08 1.453903E+08 %cxline - vtor.gt.vion; vtor,vion = 3.019080E+08 3.002404E+08 %cxline - vtor.gt.vion; vtor,vion = 5.816788E+08 5.772385E+08 %cxline - vtor.gt.vion; vtor,vion = 5.810719E+08 5.772385E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 28 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orball: in processor 0: orbit # iorb= 60 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orball: in processor 0: orbit # iorb= 72 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 153 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 183 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 187 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0186E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0160E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orball: in processor 0: orbit # iorb= 85 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 122 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13419489.7309569 a. %note: constrained curt @ bdy to: 13419489.7309569 a. %note: constrained curt @ bdy to: 13419489.7309569 a. %note: constrained curt @ bdy to: 13419489.7309569 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13419489.7309569 a. %note: constrained curt @ bdy to: 13419489.7309569 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13419489.7309569 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13419489.7309569 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3725 - 0 (killed) + 12668 (dep) = 16393 ptcls. %depall specie #2 -> 1574 - 0 (killed) + 14583 (dep) = 16157 ptcls. %depall specie #3 -> 2421 - 0 (killed) + 13841 (dep) = 16262 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.839053E+08 1.798146E+08 %cxline - vtor.gt.vion; vtor,vion = 2.425642E+08 2.422849E+08 %orball: in processor 0: orbit # iorb= 260 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.668004E+08 2.652483E+08 %cxline - vtor.gt.vion; vtor,vion = 1.895713E+08 1.894200E+08 %cxline - vtor.gt.vion; vtor,vion = 3.643596E+08 3.578210E+08 %cxline - vtor.gt.vion; vtor,vion = 3.294841E+08 3.286788E+08 %orball: in processor 0: orbit # iorb= 642 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 9.116164E+07 9.042562E+07 %cxline - vtor.gt.vion; vtor,vion = 2.500286E+08 2.477259E+08 %cxline - vtor.gt.vion; vtor,vion = 3.642604E+08 3.633177E+08 %orball: in processor 0: orbit # iorb= 1136 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.761229E+08 4.745348E+08 %cxline - vtor.gt.vion; vtor,vion = 3.905646E+08 3.864619E+08 %cxline - vtor.gt.vion; vtor,vion = 3.874903E+08 3.864619E+08 %cxline - vtor.gt.vion; vtor,vion = 1.379354E+08 1.318845E+08 %cxline - vtor.gt.vion; vtor,vion = 1.376249E+08 1.318845E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %cxline - vtor.gt.vion; vtor,vion = 3.296322E+08 3.267250E+08 %cxline - vtor.gt.vion; vtor,vion = 3.294915E+08 3.264675E+08 %cxline - vtor.gt.vion; vtor,vion = 3.285050E+08 3.264675E+08 %cxline - vtor.gt.vion; vtor,vion = 5.630360E+08 5.606334E+08 %cxline - vtor.gt.vion; vtor,vion = 3.643400E+08 3.641490E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 27 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orball: in processor 0: orbit # iorb= 90 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0171E+00 %orball: in processor 0: orbit # iorb= 133 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orball: in processor 0: orbit # iorb= 137 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0179E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 156 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 123 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13414263.5687592 a. %note: constrained curt @ bdy to: 13414263.5687592 a. %note: constrained curt @ bdy to: 13414263.5687592 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13414263.5687592 a. nbstart... %note: constrained curt @ bdy to: 13414263.5687592 a. %note: constrained curt @ bdy to: 13414263.5687592 a. nbstart... %note: constrained curt @ bdy to: 13414263.5687592 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13414263.5687592 a. nbstart... %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3875 - 0 (killed) + 12484 (dep) = 16359 ptcls. %depall specie #2 -> 1661 - 0 (killed) + 14482 (dep) = 16143 ptcls. %depall specie #3 -> 2606 - 0 (killed) + 13654 (dep) = 16260 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.379183E+08 2.375511E+08 %cxline - vtor.gt.vion; vtor,vion = 2.398161E+08 2.375511E+08 %cxline - vtor.gt.vion; vtor,vion = 1.716763E+08 1.681676E+08 %orball: in processor 0: orbit # iorb= 37 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.253006E+08 5.188772E+08 %cxline - vtor.gt.vion; vtor,vion = 1.227246E+08 1.227074E+08 %cxline - vtor.gt.vion; vtor,vion = 2.153475E+08 2.152798E+08 %cxline - vtor.gt.vion; vtor,vion = 2.153803E+08 2.152798E+08 %cxline - vtor.gt.vion; vtor,vion = 2.565492E+08 2.563615E+08 %cxline - vtor.gt.vion; vtor,vion = 2.064851E+08 2.061975E+08 %cxline - vtor.gt.vion; vtor,vion = 2.073310E+08 2.057622E+08 %cxline - vtor.gt.vion; vtor,vion = 1.583091E+08 1.555937E+08 %cxline - vtor.gt.vion; vtor,vion = 1.572784E+08 1.555937E+08 %orball: in processor 0: orbit # iorb= 654 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.828445E+08 3.823529E+08 %cxline - vtor.gt.vion; vtor,vion = 2.983603E+08 2.972636E+08 %cxline - vtor.gt.vion; vtor,vion = 1.901995E+08 1.847900E+08 %cxline - vtor.gt.vion; vtor,vion = 1.813699E+08 1.811704E+08 %cxline - vtor.gt.vion; vtor,vion = 5.085367E+08 5.060951E+08 %cxline - vtor.gt.vion; vtor,vion = 1.788686E+08 1.769696E+08 %cxline - vtor.gt.vion; vtor,vion = 1.786995E+08 1.773258E+08 %cxline - vtor.gt.vion; vtor,vion = 2.316991E+08 2.304383E+08 %cxline - vtor.gt.vion; vtor,vion = 4.373771E+08 4.368592E+08 %cxline - vtor.gt.vion; vtor,vion = 3.272983E+08 3.263026E+08 %cxline - vtor.gt.vion; vtor,vion = 5.822676E+08 5.787037E+08 %cxline - vtor.gt.vion; vtor,vion = 4.936898E+08 4.901769E+08 %cxline - vtor.gt.vion; vtor,vion = 2.309981E+08 2.248542E+08 %cxline - vtor.gt.vion; vtor,vion = 2.083631E+08 2.066383E+08 %cxline - vtor.gt.vion; vtor,vion = 2.080027E+08 2.066383E+08 %cxline - vtor.gt.vion; vtor,vion = 2.944477E+08 2.923471E+08 %cxline - vtor.gt.vion; vtor,vion = 2.706999E+08 2.673259E+08 %cxline - vtor.gt.vion; vtor,vion = 3.753329E+08 3.751943E+08 %cxline - vtor.gt.vion; vtor,vion = 5.833368E+08 5.817312E+08 %cxline - vtor.gt.vion; vtor,vion = 2.146777E+08 2.107812E+08 %cxline - vtor.gt.vion; vtor,vion = 3.579025E+08 3.565817E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orball: in processor 0: orbit # iorb= 74 never inside plasma. %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 136 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 149 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 159 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 167 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0174E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 235 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 337 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0248E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 124 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13411354.9708467 a. %note: constrained curt @ bdy to: 13411354.9708467 a. %note: constrained curt @ bdy to: 13411354.9708467 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13411354.9708467 a. %note: constrained curt @ bdy to: 13411354.9708467 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13411354.9708467 a. nbstart... %note: constrained curt @ bdy to: 13411354.9708467 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13411354.9708467 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3958 - 0 (killed) + 12346 (dep) = 16304 ptcls. %depall specie #2 -> 1644 - 0 (killed) + 14468 (dep) = 16112 ptcls. %depall specie #3 -> 2669 - 0 (killed) + 13545 (dep) = 16214 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.727086E+08 1.726380E+08 %cxline - vtor.gt.vion; vtor,vion = 1.759376E+08 1.726380E+08 %cxline - vtor.gt.vion; vtor,vion = 1.420542E+08 1.416170E+08 %cxline - vtor.gt.vion; vtor,vion = 1.422498E+08 1.416170E+08 %cxline - vtor.gt.vion; vtor,vion = 2.069430E+08 2.067664E+08 %cxline - vtor.gt.vion; vtor,vion = 2.075194E+08 2.067664E+08 %orball: in processor 0: orbit # iorb= 65 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.511419E+08 5.434226E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %cxline - vtor.gt.vion; vtor,vion = 1.689823E+08 1.688821E+08 %cxline - vtor.gt.vion; vtor,vion = 1.671994E+08 1.669894E+08 %cxline - vtor.gt.vion; vtor,vion = 1.680122E+08 1.669894E+08 %cxline - vtor.gt.vion; vtor,vion = 1.256646E+08 1.216867E+08 %cxline - vtor.gt.vion; vtor,vion = 3.208379E+08 3.208302E+08 %cxline - vtor.gt.vion; vtor,vion = 3.171751E+08 3.169597E+08 %cxline - vtor.gt.vion; vtor,vion = 3.477192E+08 3.477145E+08 %cxline - vtor.gt.vion; vtor,vion = 2.500236E+08 2.477921E+08 %cxline - vtor.gt.vion; vtor,vion = 1.433392E+08 1.401531E+08 %cxline - vtor.gt.vion; vtor,vion = 1.747916E+08 1.683224E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %cxline - vtor.gt.vion; vtor,vion = 3.045622E+08 3.042108E+08 %cxline - vtor.gt.vion; vtor,vion = 4.336557E+08 4.332388E+08 %cxline - vtor.gt.vion; vtor,vion = 3.416455E+08 3.379148E+08 %cxline - vtor.gt.vion; vtor,vion = 3.408801E+08 3.379148E+08 %cxline - vtor.gt.vion; vtor,vion = 3.442646E+08 3.379148E+08 %cxline - vtor.gt.vion; vtor,vion = 3.427561E+08 3.379148E+08 %cxline - vtor.gt.vion; vtor,vion = 5.347317E+08 5.334325E+08 %cxline - vtor.gt.vion; vtor,vion = 1.838842E+08 1.829458E+08 %cxline - vtor.gt.vion; vtor,vion = 2.122871E+08 2.118311E+08 %cxline - vtor.gt.vion; vtor,vion = 3.801460E+08 3.799655E+08 %cxline - vtor.gt.vion; vtor,vion = 2.882483E+08 2.872570E+08 %cxline - vtor.gt.vion; vtor,vion = 2.901564E+08 2.900285E+08 %cxline - vtor.gt.vion; vtor,vion = 3.659450E+08 3.649000E+08 %cxline - vtor.gt.vion; vtor,vion = 1.235118E+08 1.195579E+08 %cxline - vtor.gt.vion; vtor,vion = 1.211889E+08 1.195579E+08 %cxline - vtor.gt.vion; vtor,vion = 1.293170E+08 1.277857E+08 %cxline - vtor.gt.vion; vtor,vion = 1.280560E+08 1.277857E+08 %cxline - vtor.gt.vion; vtor,vion = 2.125833E+08 2.102549E+08 %cxline - vtor.gt.vion; vtor,vion = 1.142337E+08 1.112580E+08 %cxline - vtor.gt.vion; vtor,vion = 6.410057E+07 6.357427E+07 %cxline - vtor.gt.vion; vtor,vion = 2.142190E+08 2.135053E+08 %cxline - vtor.gt.vion; vtor,vion = 2.157358E+08 2.135053E+08 %cxline - vtor.gt.vion; vtor,vion = 2.154014E+08 2.138659E+08 %cxline - vtor.gt.vion; vtor,vion = 1.791601E+08 1.786594E+08 %cxline - vtor.gt.vion; vtor,vion = 1.787588E+08 1.786594E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orball: in processor 0: orbit # iorb= 61 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 83 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orball: in processor 0: orbit # iorb= 112 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orball: in processor 0: orbit # iorb= 146 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 185 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 210 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 79 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orball: in processor 0: orbit # iorb= 133 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orball: in processor 0: orbit # iorb= 184 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 864 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 5 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 125 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13413297.2729730 a. %note: constrained curt @ bdy to: 13413297.2729730 a. %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13413297.2729730 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4112 - 0 (killed) + 12190 (dep) = 16302 ptcls. %depall specie #2 -> 1707 - 0 (killed) + 14406 (dep) = 16113 ptcls. %depall specie #3 -> 2781 - 0 (killed) + 13429 (dep) = 16210 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.675224E+08 3.672531E+08 %cxline - vtor.gt.vion; vtor,vion = 8.614350E+07 8.584223E+07 %cxline - vtor.gt.vion; vtor,vion = 4.562444E+08 4.561620E+08 %cxline - vtor.gt.vion; vtor,vion = 2.422929E+08 2.418436E+08 %cxline - vtor.gt.vion; vtor,vion = 1.693840E+08 1.679655E+08 %cxline - vtor.gt.vion; vtor,vion = 1.944923E+08 1.859015E+08 %cxline - vtor.gt.vion; vtor,vion = 3.111874E+08 3.102073E+08 %cxline - vtor.gt.vion; vtor,vion = 2.575269E+08 2.556718E+08 %cxline - vtor.gt.vion; vtor,vion = 4.361936E+08 4.354671E+08 %cxline - vtor.gt.vion; vtor,vion = 1.453831E+08 1.453797E+08 %cxline - vtor.gt.vion; vtor,vion = 3.775921E+08 3.673718E+08 %orball: in processor 0: orbit # iorb= 650 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.833017E+08 4.667152E+08 %cxline - vtor.gt.vion; vtor,vion = 1.000974E+08 9.571668E+07 %cxline - vtor.gt.vion; vtor,vion = 3.088826E+08 3.066814E+08 %cxline - vtor.gt.vion; vtor,vion = 2.628498E+08 2.626210E+08 %cxline - vtor.gt.vion; vtor,vion = 2.626937E+08 2.626210E+08 %orball: in processor 0: orbit # iorb= 1281 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.185229E+08 6.099476E+08 %cxline - vtor.gt.vion; vtor,vion = 1.679564E+08 1.665222E+08 %cxline - vtor.gt.vion; vtor,vion = 2.867895E+08 2.865510E+08 %cxline - vtor.gt.vion; vtor,vion = 1.384844E+08 1.363842E+08 %cxline - vtor.gt.vion; vtor,vion = 1.364747E+08 1.363842E+08 %cxline - vtor.gt.vion; vtor,vion = 4.492957E+08 4.468976E+08 %cxline - vtor.gt.vion; vtor,vion = 4.476722E+08 4.468976E+08 %cxline - vtor.gt.vion; vtor,vion = 4.774993E+08 4.703058E+08 %cxline - vtor.gt.vion; vtor,vion = 2.209170E+08 2.200662E+08 %cxline - vtor.gt.vion; vtor,vion = 4.455799E+08 4.371877E+08 %cxline - vtor.gt.vion; vtor,vion = 1.029124E+08 1.012410E+08 %cxline - vtor.gt.vion; vtor,vion = 1.038465E+08 1.012410E+08 %cxline - vtor.gt.vion; vtor,vion = 1.735818E+08 1.728436E+08 %orball: in processor 0: orbit # iorb= 2081 never inside plasma. %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 118 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orball: in processor 0: orbit # iorb= 172 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0208E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 8 never inside plasma. %orball: in processor 0: orbit # iorb= 52 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 54 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 85 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orball: in processor 0: orbit # iorb= 291 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 4 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 126 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13417864.6235295 a. %note: constrained curt @ bdy to: 13417864.6235295 a. nbstart... %note: constrained curt @ bdy to: 13417864.6235295 a. %note: constrained curt @ bdy to: 13417864.6235295 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13417864.6235295 a. %note: constrained curt @ bdy to: 13417864.6235295 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13417864.6235295 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13417864.6235295 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4222 - 0 (killed) + 12060 (dep) = 16282 ptcls. %depall specie #2 -> 1718 - 0 (killed) + 14383 (dep) = 16101 ptcls. %depall specie #3 -> 2821 - 0 (killed) + 13367 (dep) = 16188 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 36 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.256021E+08 2.244017E+08 %cxline - vtor.gt.vion; vtor,vion = 2.418813E+08 2.398603E+08 %cxline - vtor.gt.vion; vtor,vion = 2.399301E+08 2.398603E+08 %cxline - vtor.gt.vion; vtor,vion = 3.547909E+08 3.536995E+08 %cxline - vtor.gt.vion; vtor,vion = 3.200868E+08 3.155322E+08 %cxline - vtor.gt.vion; vtor,vion = 1.230961E+08 1.230518E+08 %cxline - vtor.gt.vion; vtor,vion = 5.071070E+08 5.013027E+08 %cxline - vtor.gt.vion; vtor,vion = 2.409609E+08 2.409262E+08 %orball: in processor 0: orbit # iorb= 634 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.106629E+08 5.106505E+08 %orball: in processor 0: orbit # iorb= 831 never inside plasma. %orball: in processor 0: orbit # iorb= 1221 never inside plasma. %orball: in processor 0: orbit # iorb= 1329 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.599947E+08 1.570247E+08 %cxline - vtor.gt.vion; vtor,vion = 2.212044E+08 2.195655E+08 %cxline - vtor.gt.vion; vtor,vion = 2.120318E+08 2.099600E+08 %cxline - vtor.gt.vion; vtor,vion = 3.235119E+08 3.219224E+08 %cxline - vtor.gt.vion; vtor,vion = 3.649542E+08 3.647337E+08 %cxline - vtor.gt.vion; vtor,vion = 4.311532E+08 4.095179E+08 %orball: in processor 0: orbit # iorb= 2006 never inside plasma. %orball: in processor 0: orbit # iorb= 37 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 205 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orball: in processor 0: orbit # iorb= 83 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 315 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0182E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 127 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... %note: constrained curt @ bdy to: 13425628.0806283 a. %note: constrained curt @ bdy to: 13425628.0806283 a. %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13425628.0806283 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4413 - 0 (killed) + 11933 (dep) = 16346 ptcls. %depall specie #2 -> 1777 - 0 (killed) + 14350 (dep) = 16127 ptcls. %depall specie #3 -> 2870 - 0 (killed) + 13351 (dep) = 16221 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.587609E+08 1.577373E+08 %cxline - vtor.gt.vion; vtor,vion = 2.345455E+08 2.316906E+08 %cxline - vtor.gt.vion; vtor,vion = 3.128007E+08 3.101072E+08 %cxline - vtor.gt.vion; vtor,vion = 5.489331E+08 5.473378E+08 %cxline - vtor.gt.vion; vtor,vion = 2.599747E+08 2.586129E+08 %orball: in processor 0: orbit # iorb= 325 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.679968E+08 1.638798E+08 %cxline - vtor.gt.vion; vtor,vion = 1.137810E+08 1.119941E+08 %cxline - vtor.gt.vion; vtor,vion = 1.828298E+08 1.785086E+08 %cxline - vtor.gt.vion; vtor,vion = 1.147876E+08 1.147764E+08 %cxline - vtor.gt.vion; vtor,vion = 1.176440E+08 1.175128E+08 %cxline - vtor.gt.vion; vtor,vion = 1.176577E+08 1.175128E+08 %cxline - vtor.gt.vion; vtor,vion = 1.171460E+08 1.160415E+08 %cxline - vtor.gt.vion; vtor,vion = 1.050612E+08 1.040215E+08 %cxline - vtor.gt.vion; vtor,vion = 1.045388E+08 1.040215E+08 %cxline - vtor.gt.vion; vtor,vion = 1.393726E+08 1.378336E+08 %cxline - vtor.gt.vion; vtor,vion = 9.035452E+07 9.022940E+07 %cxline - vtor.gt.vion; vtor,vion = 9.214580E+07 9.177546E+07 %cxline - vtor.gt.vion; vtor,vion = 5.005273E+08 4.992718E+08 %cxline - vtor.gt.vion; vtor,vion = 1.586697E+08 1.580930E+08 %cxline - vtor.gt.vion; vtor,vion = 1.589107E+08 1.588692E+08 %cxline - vtor.gt.vion; vtor,vion = 1.610331E+08 1.588692E+08 %cxline - vtor.gt.vion; vtor,vion = 1.632297E+08 1.588692E+08 %orball: in processor 0: orbit # iorb= 1040 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.197716E+08 4.172434E+08 %cxline - vtor.gt.vion; vtor,vion = 3.628749E+08 3.619223E+08 %cxline - vtor.gt.vion; vtor,vion = 5.511112E+08 5.510283E+08 %cxline - vtor.gt.vion; vtor,vion = 3.665878E+08 3.496374E+08 %cxline - vtor.gt.vion; vtor,vion = 1.746213E+08 1.739134E+08 %cxline - vtor.gt.vion; vtor,vion = 5.368744E+08 5.315657E+08 %cxline - vtor.gt.vion; vtor,vion = 5.391402E+08 5.315657E+08 %cxline - vtor.gt.vion; vtor,vion = 2.445568E+08 2.435985E+08 %cxline - vtor.gt.vion; vtor,vion = 1.467399E+08 1.410816E+08 %cxline - vtor.gt.vion; vtor,vion = 7.115539E+08 7.107024E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 55 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 58 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 130 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orball: in processor 0: orbit # iorb= 161 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0219E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0194E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0169E+00 %orball: in processor 0: orbit # iorb= 59 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orball: in processor 0: orbit # iorb= 94 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 128 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13432464.5980225 a. %note: constrained curt @ bdy to: 13432464.5980225 a. nbstart... %note: constrained curt @ bdy to: 13432464.5980225 a. %note: constrained curt @ bdy to: 13432464.5980225 a. %note: constrained curt @ bdy to: 13432464.5980225 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13432464.5980225 a. nbstart... %note: constrained curt @ bdy to: 13432464.5980225 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13432464.5980225 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4581 - 0 (killed) + 11951 (dep) = 16532 ptcls. %depall specie #2 -> 1744 - 0 (killed) + 14453 (dep) = 16197 ptcls. %depall specie #3 -> 3037 - 0 (killed) + 13357 (dep) = 16394 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 5.162077E+08 5.152954E+08 %cxline - vtor.gt.vion; vtor,vion = 2.408566E+08 2.390353E+08 %cxline - vtor.gt.vion; vtor,vion = 1.510811E+08 1.491772E+08 %cxline - vtor.gt.vion; vtor,vion = 1.924842E+08 1.903759E+08 %cxline - vtor.gt.vion; vtor,vion = 1.829571E+08 1.826679E+08 %cxline - vtor.gt.vion; vtor,vion = 2.812332E+08 2.784870E+08 %cxline - vtor.gt.vion; vtor,vion = 1.020463E+08 1.016864E+08 %cxline - vtor.gt.vion; vtor,vion = 4.965142E+08 4.850650E+08 %cxline - vtor.gt.vion; vtor,vion = 2.142695E+08 2.130667E+08 %cxline - vtor.gt.vion; vtor,vion = 2.134442E+08 2.130667E+08 %cxline - vtor.gt.vion; vtor,vion = 2.439104E+08 2.437613E+08 %cxline - vtor.gt.vion; vtor,vion = 5.556155E+08 5.463710E+08 %cxline - vtor.gt.vion; vtor,vion = 2.909499E+08 2.909072E+08 %cxline - vtor.gt.vion; vtor,vion = 3.498417E+08 3.493710E+08 %cxline - vtor.gt.vion; vtor,vion = 3.316369E+08 3.239881E+08 %orball: in processor 0: orbit # iorb= 1048 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 7.623844E+07 7.615356E+07 %cxline - vtor.gt.vion; vtor,vion = 7.633872E+07 7.615356E+07 %cxline - vtor.gt.vion; vtor,vion = 6.972215E+07 6.960185E+07 %cxline - vtor.gt.vion; vtor,vion = 6.998962E+07 6.960185E+07 %orball: in processor 0: orbit # iorb= 1438 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.333169E+08 3.271395E+08 %cxline - vtor.gt.vion; vtor,vion = 1.726278E+08 1.725704E+08 %cxline - vtor.gt.vion; vtor,vion = 3.197826E+08 3.156946E+08 %cxline - vtor.gt.vion; vtor,vion = 1.277529E+08 1.266099E+08 %cxline - vtor.gt.vion; vtor,vion = 1.275344E+08 1.266099E+08 %cxline - vtor.gt.vion; vtor,vion = 1.197203E+08 1.190841E+08 %cxline - vtor.gt.vion; vtor,vion = 4.112556E+08 4.110773E+08 %cxline - vtor.gt.vion; vtor,vion = 2.504480E+08 2.481947E+08 %cxline - vtor.gt.vion; vtor,vion = 2.053622E+08 2.039867E+08 %cxline - vtor.gt.vion; vtor,vion = 2.048081E+08 2.039867E+08 %cxline - vtor.gt.vion; vtor,vion = 2.230574E+08 2.226393E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orball: in processor 0: orbit # iorb= 19 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orball: in processor 0: orbit # iorb= 25 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 142 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 174 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orball: in processor 0: orbit # iorb= 216 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 240 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0320E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 13 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orball: in processor 0: orbit # iorb= 97 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 198 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0200E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 129 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13423797.4475132 a. %note: constrained curt @ bdy to: 13423797.4475132 a. nbstart... %note: constrained curt @ bdy to: 13423797.4475132 a. %note: constrained curt @ bdy to: 13423797.4475132 a. %note: constrained curt @ bdy to: 13423797.4475132 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13423797.4475132 a. nbstart... %note: constrained curt @ bdy to: 13423797.4475132 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13423797.4475132 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4714 - 0 (killed) + 11910 (dep) = 16624 ptcls. %depall specie #2 -> 1778 - 0 (killed) + 14455 (dep) = 16233 ptcls. %depall specie #3 -> 3263 - 0 (killed) + 13229 (dep) = 16492 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 9.919230E+07 9.733827E+07 %cxline - vtor.gt.vion; vtor,vion = 9.854043E+07 9.724346E+07 %cxline - vtor.gt.vion; vtor,vion = 8.119027E+07 7.311163E+07 %cxline - vtor.gt.vion; vtor,vion = 8.089549E+07 7.311163E+07 %cxline - vtor.gt.vion; vtor,vion = 8.136422E+07 7.311163E+07 %cxline - vtor.gt.vion; vtor,vion = 8.156892E+07 7.311163E+07 %cxline - vtor.gt.vion; vtor,vion = 8.213891E+07 7.315517E+07 %cxline - vtor.gt.vion; vtor,vion = 8.271424E+07 7.315517E+07 %cxline - vtor.gt.vion; vtor,vion = 8.125210E+07 7.637473E+07 %cxline - vtor.gt.vion; vtor,vion = 8.198419E+07 7.637473E+07 %cxline - vtor.gt.vion; vtor,vion = 1.313207E+08 1.311040E+08 %cxline - vtor.gt.vion; vtor,vion = 1.790547E+08 1.767816E+08 %cxline - vtor.gt.vion; vtor,vion = 3.589634E+08 3.587534E+08 %cxline - vtor.gt.vion; vtor,vion = 1.348498E+08 1.341982E+08 %cxline - vtor.gt.vion; vtor,vion = 1.177562E+08 1.172401E+08 %cxline - vtor.gt.vion; vtor,vion = 3.675693E+08 3.664176E+08 %cxline - vtor.gt.vion; vtor,vion = 3.235896E+08 3.190014E+08 %cxline - vtor.gt.vion; vtor,vion = 2.126141E+08 2.098756E+08 %cxline - vtor.gt.vion; vtor,vion = 1.210670E+08 1.210436E+08 %cxline - vtor.gt.vion; vtor,vion = 2.412436E+08 2.406364E+08 %cxline - vtor.gt.vion; vtor,vion = 2.409351E+08 2.406364E+08 %cxline - vtor.gt.vion; vtor,vion = 2.077926E+08 2.068996E+08 %cxline - vtor.gt.vion; vtor,vion = 2.995993E+08 2.994966E+08 %cxline - vtor.gt.vion; vtor,vion = 2.439313E+08 2.439085E+08 %cxline - vtor.gt.vion; vtor,vion = 5.315860E+08 5.307643E+08 %cxline - vtor.gt.vion; vtor,vion = 4.763304E+08 4.761780E+08 %cxline - vtor.gt.vion; vtor,vion = 3.493611E+08 3.449717E+08 %cxline - vtor.gt.vion; vtor,vion = 2.363923E+08 2.361924E+08 %cxline - vtor.gt.vion; vtor,vion = 2.197710E+08 2.196653E+08 %orball: in processor 0: orbit # iorb= 1513 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.581541E+08 2.573507E+08 %cxline - vtor.gt.vion; vtor,vion = 5.738636E+08 5.723121E+08 %orball: in processor 0: orbit # iorb= 1950 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.494799E+08 1.469060E+08 %cxline - vtor.gt.vion; vtor,vion = 1.507597E+08 1.469060E+08 %cxline - vtor.gt.vion; vtor,vion = 4.435236E+08 4.402606E+08 %cxline - vtor.gt.vion; vtor,vion = 4.447909E+08 4.402606E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 75 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 182 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orball: in processor 0: orbit # iorb= 192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0201E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orball: in processor 0: orbit # iorb= 6 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orball: in processor 0: orbit # iorb= 17 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 203 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0242E+00 %orball: in processor 0: orbit # iorb= 332 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 130 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13416235.2697258 a. %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... %note: constrained curt @ bdy to: 13416235.2697258 a. %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13416235.2697258 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.964E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4881 - 0 (killed) + 11119 (dep) = 16000 ptcls. %depall specie #2 -> 1959 - 0 (killed) + 14041 (dep) = 16000 ptcls. %depall specie #3 -> 3376 - 0 (killed) + 12624 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.305929E+08 1.255016E+08 %cxline - vtor.gt.vion; vtor,vion = 1.411769E+08 1.400460E+08 %cxline - vtor.gt.vion; vtor,vion = 3.153110E+08 3.115986E+08 %cxline - vtor.gt.vion; vtor,vion = 2.132811E+08 2.111819E+08 %cxline - vtor.gt.vion; vtor,vion = 1.878176E+08 1.851853E+08 %cxline - vtor.gt.vion; vtor,vion = 4.007358E+08 4.003647E+08 %cxline - vtor.gt.vion; vtor,vion = 2.862223E+08 2.796086E+08 %cxline - vtor.gt.vion; vtor,vion = 3.084295E+08 3.073803E+08 %cxline - vtor.gt.vion; vtor,vion = 1.104550E+08 1.087617E+08 %cxline - vtor.gt.vion; vtor,vion = 1.129003E+08 1.087617E+08 %cxline - vtor.gt.vion; vtor,vion = 3.764918E+08 3.713969E+08 %cxline - vtor.gt.vion; vtor,vion = 1.764591E+08 1.720887E+08 %cxline - vtor.gt.vion; vtor,vion = 3.502781E+08 3.448998E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 34 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 150 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 185 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 191 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0206E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 171 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orball: in processor 0: orbit # iorb= 394 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0191E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 131 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 %note: constrained curt @ bdy to: 13537109.5626486 a. %note: constrained curt @ bdy to: 13537109.5626486 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13537109.5626486 a. %note: constrained curt @ bdy to: 13537109.5626486 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13537109.5626486 a. %note: constrained curt @ bdy to: 13537109.5626486 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13537109.5626486 a. nbstart... %note: constrained curt @ bdy to: 13537109.5626486 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.918E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4854 - 0 (killed) + 11146 (dep) = 16000 ptcls. %depall specie #2 -> 1760 - 0 (killed) + 14240 (dep) = 16000 ptcls. %depall specie #3 -> 3229 - 0 (killed) + 12771 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.113066E+08 2.109590E+08 %cxline - vtor.gt.vion; vtor,vion = 1.893216E+08 1.892146E+08 %cxline - vtor.gt.vion; vtor,vion = 2.412433E+08 2.388111E+08 %cxline - vtor.gt.vion; vtor,vion = 2.078853E+08 2.072645E+08 %cxline - vtor.gt.vion; vtor,vion = 1.353223E+08 1.352842E+08 %cxline - vtor.gt.vion; vtor,vion = 9.179361E+07 8.409886E+07 %cxline - vtor.gt.vion; vtor,vion = 9.404931E+07 8.409886E+07 %cxline - vtor.gt.vion; vtor,vion = 2.421986E+08 2.406005E+08 %cxline - vtor.gt.vion; vtor,vion = 1.410954E+08 1.397263E+08 %cxline - vtor.gt.vion; vtor,vion = 7.335218E+07 7.331628E+07 %cxline - vtor.gt.vion; vtor,vion = 1.553412E+08 1.531248E+08 %cxline - vtor.gt.vion; vtor,vion = 2.265533E+08 2.186990E+08 %cxline - vtor.gt.vion; vtor,vion = 4.339820E+08 4.332776E+08 %cxline - vtor.gt.vion; vtor,vion = 2.521958E+08 2.450586E+08 %cxline - vtor.gt.vion; vtor,vion = 1.011755E+08 9.991790E+07 %cxline - vtor.gt.vion; vtor,vion = 1.572009E+08 1.570329E+08 %cxline - vtor.gt.vion; vtor,vion = 1.574375E+08 1.570329E+08 %orball: in processor 0: orbit # iorb= 952 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.153086E+08 1.105614E+08 %cxline - vtor.gt.vion; vtor,vion = 1.168109E+08 1.105614E+08 %cxline - vtor.gt.vion; vtor,vion = 1.181963E+08 1.107567E+08 %cxline - vtor.gt.vion; vtor,vion = 1.175925E+08 1.107567E+08 %cxline - vtor.gt.vion; vtor,vion = 1.188223E+08 1.163980E+08 %cxline - vtor.gt.vion; vtor,vion = 2.372243E+08 2.349525E+08 %cxline - vtor.gt.vion; vtor,vion = 2.300881E+08 2.299492E+08 %cxline - vtor.gt.vion; vtor,vion = 2.280131E+08 2.256914E+08 %cxline - vtor.gt.vion; vtor,vion = 2.268734E+08 2.256914E+08 %cxline - vtor.gt.vion; vtor,vion = 2.293558E+08 2.268827E+08 %cxline - vtor.gt.vion; vtor,vion = 2.271850E+08 2.268827E+08 %cxline - vtor.gt.vion; vtor,vion = 2.251409E+08 2.224282E+08 %cxline - vtor.gt.vion; vtor,vion = 2.631242E+08 2.627632E+08 %cxline - vtor.gt.vion; vtor,vion = 3.763765E+08 3.746102E+08 %cxline - vtor.gt.vion; vtor,vion = 3.599582E+08 3.586248E+08 %cxline - vtor.gt.vion; vtor,vion = 1.623936E+08 1.616436E+08 %cxline - vtor.gt.vion; vtor,vion = 1.395962E+08 1.377166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.392862E+08 1.377166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.308283E+08 1.305004E+08 %cxline - vtor.gt.vion; vtor,vion = 1.340902E+08 1.294071E+08 %cxline - vtor.gt.vion; vtor,vion = 1.313210E+08 1.294071E+08 %cxline - vtor.gt.vion; vtor,vion = 2.259824E+08 2.247386E+08 %cxline - vtor.gt.vion; vtor,vion = 3.373493E+08 3.335979E+08 %cxline - vtor.gt.vion; vtor,vion = 3.024163E+08 2.996318E+08 %cxline - vtor.gt.vion; vtor,vion = 2.880864E+08 2.874466E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 77 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orball: in processor 0: orbit # iorb= 91 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 158 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0191E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orball: in processor 0: orbit # iorb= 271 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 132 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13731269.7328848 a. %note: constrained curt @ bdy to: 13731269.7328848 a. %note: constrained curt @ bdy to: 13731269.7328848 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13731269.7328848 a. %note: constrained curt @ bdy to: 13731269.7328848 a. nbstart... %note: constrained curt @ bdy to: 13731269.7328848 a. nbstart... %note: constrained curt @ bdy to: 13731269.7328848 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13731269.7328848 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4779 - 0 (killed) + 11221 (dep) = 16000 ptcls. %depall specie #2 -> 1540 - 0 (killed) + 14460 (dep) = 16000 ptcls. %depall specie #3 -> 2982 - 0 (killed) + 13018 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.715163E+08 1.706165E+08 %cxline - vtor.gt.vion; vtor,vion = 1.688839E+08 1.611553E+08 %cxline - vtor.gt.vion; vtor,vion = 1.666655E+08 1.611553E+08 %cxline - vtor.gt.vion; vtor,vion = 1.653467E+08 1.608078E+08 %cxline - vtor.gt.vion; vtor,vion = 1.614959E+08 1.608078E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %cxline - vtor.gt.vion; vtor,vion = 1.392950E+08 1.381749E+08 %cxline - vtor.gt.vion; vtor,vion = 3.323118E+08 3.221216E+08 %cxline - vtor.gt.vion; vtor,vion = 2.099669E+08 2.081616E+08 %cxline - vtor.gt.vion; vtor,vion = 2.615476E+08 2.535446E+08 %cxline - vtor.gt.vion; vtor,vion = 2.621153E+08 2.535446E+08 %cxline - vtor.gt.vion; vtor,vion = 8.416199E+07 8.411482E+07 %cxline - vtor.gt.vion; vtor,vion = 2.339152E+08 2.334734E+08 %cxline - vtor.gt.vion; vtor,vion = 2.138266E+08 2.130377E+08 %cxline - vtor.gt.vion; vtor,vion = 1.941779E+08 1.936227E+08 %cxline - vtor.gt.vion; vtor,vion = 2.193333E+08 2.148220E+08 %cxline - vtor.gt.vion; vtor,vion = 1.632038E+08 1.614662E+08 %cxline - vtor.gt.vion; vtor,vion = 1.647256E+08 1.614662E+08 %cxline - vtor.gt.vion; vtor,vion = 1.674154E+08 1.615826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.678602E+08 1.615826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.703254E+08 1.616711E+08 %cxline - vtor.gt.vion; vtor,vion = 1.675476E+08 1.616711E+08 %cxline - vtor.gt.vion; vtor,vion = 1.642518E+08 1.615826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.623696E+08 1.615826E+08 %cxline - vtor.gt.vion; vtor,vion = 4.270814E+08 4.260565E+08 %cxline - vtor.gt.vion; vtor,vion = 1.589407E+08 1.560404E+08 %cxline - vtor.gt.vion; vtor,vion = 1.580007E+08 1.560404E+08 %cxline - vtor.gt.vion; vtor,vion = 5.794986E+08 5.655224E+08 %cxline - vtor.gt.vion; vtor,vion = 2.253507E+08 2.236208E+08 %cxline - vtor.gt.vion; vtor,vion = 2.252929E+08 2.196353E+08 %cxline - vtor.gt.vion; vtor,vion = 1.559021E+08 1.556303E+08 %cxline - vtor.gt.vion; vtor,vion = 3.561473E+08 3.561369E+08 %cxline - vtor.gt.vion; vtor,vion = 2.465941E+08 2.463619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.463890E+08 2.463619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.090767E+08 2.064400E+08 %cxline - vtor.gt.vion; vtor,vion = 2.806317E+08 2.806247E+08 %cxline - vtor.gt.vion; vtor,vion = 2.779616E+08 2.777980E+08 %cxline - vtor.gt.vion; vtor,vion = 5.382620E+08 5.373218E+08 %cxline - vtor.gt.vion; vtor,vion = 5.405429E+08 5.373218E+08 %cxline - vtor.gt.vion; vtor,vion = 1.476958E+08 1.476879E+08 %cxline - vtor.gt.vion; vtor,vion = 1.473831E+08 1.461916E+08 %cxline - vtor.gt.vion; vtor,vion = 1.307675E+08 1.306446E+08 %cxline - vtor.gt.vion; vtor,vion = 3.469258E+08 3.454388E+08 %cxline - vtor.gt.vion; vtor,vion = 1.255849E+08 1.255102E+08 %cxline - vtor.gt.vion; vtor,vion = 1.229743E+08 1.217434E+08 %cxline - vtor.gt.vion; vtor,vion = 1.208281E+08 1.206520E+08 %cxline - vtor.gt.vion; vtor,vion = 2.225777E+08 2.205620E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orball: in processor 0: orbit # iorb= 55 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 163 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 133 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13669272.2021161 a. %note: constrained curt @ bdy to: 13669272.2021161 a. nbstart... %note: constrained curt @ bdy to: 13669272.2021161 a. %note: constrained curt @ bdy to: 13669272.2021161 a. %note: constrained curt @ bdy to: 13669272.2021161 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13669272.2021161 a. nbstart... %note: constrained curt @ bdy to: 13669272.2021161 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13669272.2021161 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3963 - 0 (killed) + 12037 (dep) = 16000 ptcls. %depall specie #2 -> 1422 - 0 (killed) + 14578 (dep) = 16000 ptcls. %depall specie #3 -> 2636 - 0 (killed) + 13364 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 8.709886E+07 8.682769E+07 %cxline - vtor.gt.vion; vtor,vion = 2.179393E+08 2.161933E+08 %cxline - vtor.gt.vion; vtor,vion = 1.339749E+08 1.322729E+08 %cxline - vtor.gt.vion; vtor,vion = 3.549780E+08 3.538057E+08 %cxline - vtor.gt.vion; vtor,vion = 1.960882E+08 1.960317E+08 %cxline - vtor.gt.vion; vtor,vion = 5.081835E+08 5.076659E+08 %cxline - vtor.gt.vion; vtor,vion = 2.615579E+08 2.615117E+08 %cxline - vtor.gt.vion; vtor,vion = 1.015343E+08 1.001753E+08 %cxline - vtor.gt.vion; vtor,vion = 1.026147E+08 1.001753E+08 %cxline - vtor.gt.vion; vtor,vion = 1.331872E+08 1.286762E+08 %cxline - vtor.gt.vion; vtor,vion = 1.429183E+08 1.400155E+08 %cxline - vtor.gt.vion; vtor,vion = 1.828617E+08 1.827086E+08 %cxline - vtor.gt.vion; vtor,vion = 1.045234E+08 1.041527E+08 %cxline - vtor.gt.vion; vtor,vion = 1.025480E+08 1.023628E+08 %cxline - vtor.gt.vion; vtor,vion = 1.024222E+08 1.023628E+08 %cxline - vtor.gt.vion; vtor,vion = 1.612429E+08 1.608038E+08 %cxline - vtor.gt.vion; vtor,vion = 3.328755E+08 3.316453E+08 %cxline - vtor.gt.vion; vtor,vion = 1.159761E+08 1.141247E+08 %cxline - vtor.gt.vion; vtor,vion = 2.987697E+08 2.979054E+08 %cxline - vtor.gt.vion; vtor,vion = 2.836194E+08 2.798273E+08 %cxline - vtor.gt.vion; vtor,vion = 3.696275E+08 3.690477E+08 %cxline - vtor.gt.vion; vtor,vion = 1.364997E+08 1.364197E+08 %cxline - vtor.gt.vion; vtor,vion = 1.371176E+08 1.364197E+08 %cxline - vtor.gt.vion; vtor,vion = 8.726625E+07 8.343196E+07 %cxline - vtor.gt.vion; vtor,vion = 1.320566E+08 1.253533E+08 %cxline - vtor.gt.vion; vtor,vion = 1.320613E+08 1.253533E+08 %cxline - vtor.gt.vion; vtor,vion = 1.350481E+08 1.256230E+08 %cxline - vtor.gt.vion; vtor,vion = 1.348218E+08 1.256230E+08 %cxline - vtor.gt.vion; vtor,vion = 2.756177E+08 2.753848E+08 %cxline - vtor.gt.vion; vtor,vion = 3.443522E+08 3.422076E+08 %cxline - vtor.gt.vion; vtor,vion = 2.233818E+08 2.232863E+08 %cxline - vtor.gt.vion; vtor,vion = 1.654218E+08 1.562443E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 17 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orball: in processor 0: orbit # iorb= 331 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 134 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13637524.0661522 a. %note: constrained curt @ bdy to: 13637524.0661522 a. %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13637524.0661522 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4038 - 0 (killed) + 11962 (dep) = 16000 ptcls. %depall specie #2 -> 1300 - 0 (killed) + 14700 (dep) = 16000 ptcls. %depall specie #3 -> 2457 - 0 (killed) + 13543 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.715107E+08 2.692960E+08 %cxline - vtor.gt.vion; vtor,vion = 1.186596E+08 1.161070E+08 %cxline - vtor.gt.vion; vtor,vion = 2.708003E+08 2.698587E+08 %cxline - vtor.gt.vion; vtor,vion = 2.707668E+08 2.698587E+08 %cxline - vtor.gt.vion; vtor,vion = 3.815504E+08 3.814867E+08 %cxline - vtor.gt.vion; vtor,vion = 2.257856E+08 2.252501E+08 %cxline - vtor.gt.vion; vtor,vion = 2.928614E+08 2.907343E+08 %cxline - vtor.gt.vion; vtor,vion = 4.292880E+08 4.292218E+08 %cxline - vtor.gt.vion; vtor,vion = 6.338326E+07 6.320253E+07 %cxline - vtor.gt.vion; vtor,vion = 1.754341E+08 1.720063E+08 %cxline - vtor.gt.vion; vtor,vion = 1.374574E+08 1.323937E+08 %cxline - vtor.gt.vion; vtor,vion = 2.865364E+08 2.828674E+08 %cxline - vtor.gt.vion; vtor,vion = 4.881688E+08 4.881567E+08 %cxline - vtor.gt.vion; vtor,vion = 2.887501E+08 2.824286E+08 %cxline - vtor.gt.vion; vtor,vion = 1.767632E+08 1.741842E+08 %cxline - vtor.gt.vion; vtor,vion = 1.564585E+08 1.557191E+08 %cxline - vtor.gt.vion; vtor,vion = 3.679207E+08 3.671670E+08 %cxline - vtor.gt.vion; vtor,vion = 1.723051E+08 1.674307E+08 %cxline - vtor.gt.vion; vtor,vion = 2.885711E+08 2.867437E+08 %cxline - vtor.gt.vion; vtor,vion = 9.964952E+07 9.896216E+07 %cxline - vtor.gt.vion; vtor,vion = 7.590838E+07 7.390418E+07 %cxline - vtor.gt.vion; vtor,vion = 7.697113E+07 7.390418E+07 %cxline - vtor.gt.vion; vtor,vion = 2.889704E+08 2.879098E+08 %cxline - vtor.gt.vion; vtor,vion = 2.487998E+08 2.487532E+08 %cxline - vtor.gt.vion; vtor,vion = 3.108479E+08 3.083717E+08 %cxline - vtor.gt.vion; vtor,vion = 8.449327E+07 8.263151E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orball: in processor 0: orbit # iorb= 56 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 91 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 846 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 4 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 209 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orball: in processor 0: orbit # iorb= 214 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orball: in processor 0: orbit # iorb= 263 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 1868 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 135 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13565665.0311302 a. %note: constrained curt @ bdy to: 13565665.0311302 a. %note: constrained curt @ bdy to: 13565665.0311302 a. nbstart... %note: constrained curt @ bdy to: 13565665.0311302 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13565665.0311302 a. %note: constrained curt @ bdy to: 13565665.0311302 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13565665.0311302 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13565665.0311302 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3681 - 0 (killed) + 12912 (dep) = 16593 ptcls. %depall specie #2 -> 1335 - 0 (killed) + 14948 (dep) = 16283 ptcls. %depall specie #3 -> 2315 - 0 (killed) + 14193 (dep) = 16508 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 5.393327E+08 5.361953E+08 %cxline - vtor.gt.vion; vtor,vion = 2.971087E+08 2.948998E+08 %cxline - vtor.gt.vion; vtor,vion = 1.754327E+08 1.725305E+08 %cxline - vtor.gt.vion; vtor,vion = 2.067329E+08 2.063780E+08 %cxline - vtor.gt.vion; vtor,vion = 2.498385E+08 2.497596E+08 %cxline - vtor.gt.vion; vtor,vion = 2.162063E+08 2.160498E+08 %cxline - vtor.gt.vion; vtor,vion = 2.683982E+08 2.629542E+08 %cxline - vtor.gt.vion; vtor,vion = 1.649397E+08 1.637055E+08 %cxline - vtor.gt.vion; vtor,vion = 1.317312E+08 1.313140E+08 %cxline - vtor.gt.vion; vtor,vion = 2.920751E+08 2.897983E+08 %orball: in processor 0: orbit # iorb= 577 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.878707E+08 4.862308E+08 %cxline - vtor.gt.vion; vtor,vion = 1.420919E+08 1.409399E+08 %orball: in processor 0: orbit # iorb= 644 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %cxline - vtor.gt.vion; vtor,vion = 1.760687E+08 1.758880E+08 %cxline - vtor.gt.vion; vtor,vion = 2.535069E+08 2.512979E+08 %cxline - vtor.gt.vion; vtor,vion = 3.473444E+08 3.455284E+08 %cxline - vtor.gt.vion; vtor,vion = 3.150826E+08 3.087588E+08 %cxline - vtor.gt.vion; vtor,vion = 1.693667E+08 1.688168E+08 %cxline - vtor.gt.vion; vtor,vion = 1.155879E+08 1.106345E+08 %cxline - vtor.gt.vion; vtor,vion = 1.254570E+08 1.248343E+08 %cxline - vtor.gt.vion; vtor,vion = 1.201172E+08 1.191600E+08 %cxline - vtor.gt.vion; vtor,vion = 5.127593E+08 5.093935E+08 %cxline - vtor.gt.vion; vtor,vion = 2.634456E+08 2.621886E+08 %cxline - vtor.gt.vion; vtor,vion = 2.287094E+08 2.245026E+08 %cxline - vtor.gt.vion; vtor,vion = 2.209683E+08 2.151833E+08 %cxline - vtor.gt.vion; vtor,vion = 4.605340E+08 4.548784E+08 %cxline - vtor.gt.vion; vtor,vion = 4.569888E+08 4.548784E+08 %cxline - vtor.gt.vion; vtor,vion = 2.922868E+08 2.918511E+08 %cxline - vtor.gt.vion; vtor,vion = 2.442277E+08 2.438236E+08 %cxline - vtor.gt.vion; vtor,vion = 2.439400E+08 2.438236E+08 %cxline - vtor.gt.vion; vtor,vion = 2.731045E+08 2.726408E+08 %cxline - vtor.gt.vion; vtor,vion = 3.391148E+08 3.380809E+08 %cxline - vtor.gt.vion; vtor,vion = 5.034653E+08 5.028461E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 41 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 70 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 139 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 153 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orball: in processor 0: orbit # iorb= 127 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 202 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 204 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 949 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0198E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 136 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13503254.6752608 a. %note: constrained curt @ bdy to: 13503254.6752608 a. nbstart... %note: constrained curt @ bdy to: 13503254.6752608 a. %note: constrained curt @ bdy to: 13503254.6752608 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13503254.6752608 a. %note: constrained curt @ bdy to: 13503254.6752608 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13503254.6752608 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13503254.6752608 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3710 - 0 (killed) + 12893 (dep) = 16603 ptcls. %depall specie #2 -> 1406 - 0 (killed) + 14833 (dep) = 16239 ptcls. %depall specie #3 -> 2214 - 0 (killed) + 14204 (dep) = 16418 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.147234E+08 2.107357E+08 %cxline - vtor.gt.vion; vtor,vion = 1.483628E+08 1.458434E+08 %cxline - vtor.gt.vion; vtor,vion = 1.486627E+08 1.458434E+08 %cxline - vtor.gt.vion; vtor,vion = 4.065859E+08 4.022597E+08 %cxline - vtor.gt.vion; vtor,vion = 4.026770E+08 4.022597E+08 %cxline - vtor.gt.vion; vtor,vion = 1.264725E+08 1.240512E+08 %cxline - vtor.gt.vion; vtor,vion = 3.966571E+08 3.955050E+08 %cxline - vtor.gt.vion; vtor,vion = 4.486646E+08 4.396656E+08 %cxline - vtor.gt.vion; vtor,vion = 4.504575E+08 4.479808E+08 %cxline - vtor.gt.vion; vtor,vion = 9.184723E+07 9.076603E+07 %cxline - vtor.gt.vion; vtor,vion = 6.540163E+07 6.183251E+07 %cxline - vtor.gt.vion; vtor,vion = 6.548442E+07 6.183251E+07 %cxline - vtor.gt.vion; vtor,vion = 2.361107E+08 2.355226E+08 %cxline - vtor.gt.vion; vtor,vion = 3.294347E+08 3.266940E+08 %cxline - vtor.gt.vion; vtor,vion = 2.192738E+08 2.184871E+08 %orball: in processor 0: orbit # iorb= 537 never inside plasma. %orball: in processor 0: orbit # iorb= 736 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.550603E+08 2.543917E+08 %cxline - vtor.gt.vion; vtor,vion = 2.309979E+08 2.306222E+08 %cxline - vtor.gt.vion; vtor,vion = 1.802298E+08 1.799927E+08 %cxline - vtor.gt.vion; vtor,vion = 1.800124E+08 1.799927E+08 %orball: in processor 0: orbit # iorb= 998 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.158654E+08 2.142338E+08 %cxline - vtor.gt.vion; vtor,vion = 7.625278E+07 7.387164E+07 %cxline - vtor.gt.vion; vtor,vion = 6.534311E+08 6.483043E+08 %cxline - vtor.gt.vion; vtor,vion = 6.520296E+08 6.483043E+08 %cxline - vtor.gt.vion; vtor,vion = 3.315374E+08 3.295966E+08 %cxline - vtor.gt.vion; vtor,vion = 2.329221E+08 2.318789E+08 %cxline - vtor.gt.vion; vtor,vion = 2.640832E+08 2.639893E+08 %cxline - vtor.gt.vion; vtor,vion = 2.691352E+08 2.668568E+08 %cxline - vtor.gt.vion; vtor,vion = 2.540175E+08 2.513465E+08 %cxline - vtor.gt.vion; vtor,vion = 3.874314E+08 3.853869E+08 %cxline - vtor.gt.vion; vtor,vion = 3.538781E+08 3.500156E+08 %orball: in processor 0: orbit # iorb= 1979 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.656504E+08 1.654945E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orball: in processor 0: orbit # iorb= 12 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 39 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orball: in processor 0: orbit # iorb= 184 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0209E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 1681 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.912E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 137 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13466275.1923585 a. %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... %note: constrained curt @ bdy to: 13466275.1923585 a. %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13466275.1923585 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3638 - 0 (killed) + 12858 (dep) = 16496 ptcls. %depall specie #2 -> 1446 - 0 (killed) + 14757 (dep) = 16203 ptcls. %depall specie #3 -> 2357 - 0 (killed) + 14034 (dep) = 16391 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.807532E+08 2.798925E+08 %cxline - vtor.gt.vion; vtor,vion = 2.795426E+08 2.763209E+08 %cxline - vtor.gt.vion; vtor,vion = 5.276866E+08 5.266192E+08 %cxline - vtor.gt.vion; vtor,vion = 1.738028E+08 1.729824E+08 %cxline - vtor.gt.vion; vtor,vion = 3.903015E+08 3.794292E+08 %cxline - vtor.gt.vion; vtor,vion = 5.302000E+08 5.299840E+08 %cxline - vtor.gt.vion; vtor,vion = 3.753822E+08 3.681176E+08 %cxline - vtor.gt.vion; vtor,vion = 3.744692E+08 3.681176E+08 %cxline - vtor.gt.vion; vtor,vion = 2.273528E+08 2.271895E+08 %cxline - vtor.gt.vion; vtor,vion = 2.260681E+08 2.254034E+08 %cxline - vtor.gt.vion; vtor,vion = 2.786157E+08 2.763561E+08 %cxline - vtor.gt.vion; vtor,vion = 2.655526E+08 2.637124E+08 %cxline - vtor.gt.vion; vtor,vion = 2.351240E+08 2.282406E+08 %cxline - vtor.gt.vion; vtor,vion = 2.350769E+08 2.282406E+08 %cxline - vtor.gt.vion; vtor,vion = 2.855820E+08 2.831954E+08 %cxline - vtor.gt.vion; vtor,vion = 2.696838E+08 2.683292E+08 %cxline - vtor.gt.vion; vtor,vion = 1.858025E+08 1.855169E+08 %cxline - vtor.gt.vion; vtor,vion = 1.873778E+08 1.855169E+08 %cxline - vtor.gt.vion; vtor,vion = 4.654691E+08 4.642037E+08 %cxline - vtor.gt.vion; vtor,vion = 2.235199E+08 2.215136E+08 %cxline - vtor.gt.vion; vtor,vion = 1.128827E+08 1.121984E+08 %cxline - vtor.gt.vion; vtor,vion = 4.249569E+08 4.203651E+08 %cxline - vtor.gt.vion; vtor,vion = 4.225980E+08 4.203651E+08 %orball: in processor 0: orbit # iorb= 1323 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %cxline - vtor.gt.vion; vtor,vion = 9.800525E+07 9.738499E+07 %cxline - vtor.gt.vion; vtor,vion = 9.536113E+07 9.525252E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %cxline - vtor.gt.vion; vtor,vion = 2.563913E+08 2.541165E+08 %cxline - vtor.gt.vion; vtor,vion = 2.545935E+08 2.541165E+08 %cxline - vtor.gt.vion; vtor,vion = 2.530409E+08 2.528048E+08 %cxline - vtor.gt.vion; vtor,vion = 3.998368E+08 3.995183E+08 %cxline - vtor.gt.vion; vtor,vion = 1.450939E+08 1.417323E+08 %cxline - vtor.gt.vion; vtor,vion = 2.348116E+08 2.299042E+08 %cxline - vtor.gt.vion; vtor,vion = 5.814328E+08 5.786882E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orball: in processor 0: orbit # iorb= 81 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orball: in processor 0: orbit # iorb= 170 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orball: in processor 0: orbit # iorb= 186 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0192E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0225E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 69 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orball: in processor 0: orbit # iorb= 106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 146 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orball: in processor 0: orbit # iorb= 174 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 196 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %orball: in processor 0: orbit # iorb= 296 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 138 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13440901.0943639 a. %note: constrained curt @ bdy to: 13440901.0943639 a. %note: constrained curt @ bdy to: 13440901.0943639 a. nbstart... %note: constrained curt @ bdy to: 13440901.0943639 a. nbstart... %note: constrained curt @ bdy to: 13440901.0943639 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13440901.0943639 a. %note: constrained curt @ bdy to: 13440901.0943639 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13440901.0943639 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3736 - 0 (killed) + 12708 (dep) = 16444 ptcls. %depall specie #2 -> 1547 - 0 (killed) + 14634 (dep) = 16181 ptcls. %depall specie #3 -> 2497 - 0 (killed) + 13842 (dep) = 16339 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.573182E+08 3.553845E+08 %cxline - vtor.gt.vion; vtor,vion = 1.210748E+08 1.161290E+08 %cxline - vtor.gt.vion; vtor,vion = 1.185449E+08 1.161290E+08 %cxline - vtor.gt.vion; vtor,vion = 1.228370E+08 1.154545E+08 %cxline - vtor.gt.vion; vtor,vion = 1.228597E+08 1.154545E+08 %cxline - vtor.gt.vion; vtor,vion = 3.018271E+08 2.957983E+08 %cxline - vtor.gt.vion; vtor,vion = 4.192174E+08 4.191317E+08 %cxline - vtor.gt.vion; vtor,vion = 5.460396E+08 5.457601E+08 %cxline - vtor.gt.vion; vtor,vion = 5.486098E+08 5.457601E+08 %cxline - vtor.gt.vion; vtor,vion = 1.249707E+08 1.245969E+08 %cxline - vtor.gt.vion; vtor,vion = 6.277228E+08 6.257236E+08 %cxline - vtor.gt.vion; vtor,vion = 2.248879E+08 2.247196E+08 %cxline - vtor.gt.vion; vtor,vion = 3.706403E+08 3.687127E+08 %orball: in processor 0: orbit # iorb= 846 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.814273E+08 2.765120E+08 %cxline - vtor.gt.vion; vtor,vion = 1.883674E+08 1.879875E+08 %cxline - vtor.gt.vion; vtor,vion = 6.376359E+08 6.365997E+08 %cxline - vtor.gt.vion; vtor,vion = 2.877128E+08 2.863275E+08 %cxline - vtor.gt.vion; vtor,vion = 4.246460E+08 4.229321E+08 %cxline - vtor.gt.vion; vtor,vion = 1.723665E+08 1.698375E+08 %cxline - vtor.gt.vion; vtor,vion = 1.094659E+08 1.047253E+08 %cxline - vtor.gt.vion; vtor,vion = 3.399353E+08 3.389606E+08 %cxline - vtor.gt.vion; vtor,vion = 3.397937E+08 3.389606E+08 %cxline - vtor.gt.vion; vtor,vion = 4.206927E+08 4.151597E+08 %cxline - vtor.gt.vion; vtor,vion = 4.154323E+08 4.151597E+08 %cxline - vtor.gt.vion; vtor,vion = 6.546518E+08 6.528916E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orball: in processor 0: orbit # iorb= 16 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 45 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 57 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 91 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 113 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orball: in processor 0: orbit # iorb= 195 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 67 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 134 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 232 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 299 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0196E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 139 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13432004.4465339 a. %note: constrained curt @ bdy to: 13432004.4465339 a. %note: constrained curt @ bdy to: 13432004.4465339 a. %note: constrained curt @ bdy to: 13432004.4465339 a. nbstart... %note: constrained curt @ bdy to: 13432004.4465339 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13432004.4465339 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13432004.4465339 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13432004.4465339 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3780 - 0 (killed) + 12592 (dep) = 16372 ptcls. %depall specie #2 -> 1592 - 0 (killed) + 14560 (dep) = 16152 ptcls. %depall specie #3 -> 2491 - 0 (killed) + 13773 (dep) = 16264 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 2.809508E+08 2.769123E+08 %cxline - vtor.gt.vion; vtor,vion = 1.983330E+08 1.944869E+08 %cxline - vtor.gt.vion; vtor,vion = 2.889459E+08 2.846756E+08 %orball: in processor 0: orbit # iorb= 275 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.594053E+08 2.593034E+08 %cxline - vtor.gt.vion; vtor,vion = 4.544905E+08 4.539926E+08 %cxline - vtor.gt.vion; vtor,vion = 2.065836E+08 2.065377E+08 %cxline - vtor.gt.vion; vtor,vion = 2.932518E+08 2.931400E+08 %cxline - vtor.gt.vion; vtor,vion = 1.110290E+08 1.071547E+08 %cxline - vtor.gt.vion; vtor,vion = 1.092599E+08 1.071547E+08 %cxline - vtor.gt.vion; vtor,vion = 1.227180E+08 1.200635E+08 %cxline - vtor.gt.vion; vtor,vion = 1.155277E+08 1.099664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.168269E+08 1.099664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.116957E+08 1.101311E+08 %cxline - vtor.gt.vion; vtor,vion = 9.078461E+07 9.057250E+07 %cxline - vtor.gt.vion; vtor,vion = 3.280566E+08 3.274148E+08 %cxline - vtor.gt.vion; vtor,vion = 2.529732E+08 2.515035E+08 %cxline - vtor.gt.vion; vtor,vion = 6.113613E+08 6.092186E+08 %cxline - vtor.gt.vion; vtor,vion = 6.134354E+08 6.092186E+08 %cxline - vtor.gt.vion; vtor,vion = 3.465577E+08 3.457365E+08 %cxline - vtor.gt.vion; vtor,vion = 4.110408E+08 4.084092E+08 %cxline - vtor.gt.vion; vtor,vion = 4.086761E+08 4.084092E+08 %cxline - vtor.gt.vion; vtor,vion = 1.762957E+08 1.707850E+08 %cxline - vtor.gt.vion; vtor,vion = 2.640166E+08 2.626909E+08 %cxline - vtor.gt.vion; vtor,vion = 4.664624E+08 4.660679E+08 %cxline - vtor.gt.vion; vtor,vion = 1.536497E+08 1.416464E+08 %cxline - vtor.gt.vion; vtor,vion = 1.538778E+08 1.416464E+08 %cxline - vtor.gt.vion; vtor,vion = 1.464036E+08 1.424389E+08 %orball: in processor 0: orbit # iorb= 1730 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.605954E+08 2.593606E+08 %cxline - vtor.gt.vion; vtor,vion = 5.299511E+08 5.298680E+08 %cxline - vtor.gt.vion; vtor,vion = 2.160980E+08 2.152482E+08 %cxline - vtor.gt.vion; vtor,vion = 5.453378E+08 5.399752E+08 %cxline - vtor.gt.vion; vtor,vion = 5.451310E+08 5.399752E+08 %orball: in processor 0: orbit # iorb= 2093 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orball: in processor 0: orbit # iorb= 68 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 99 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 128 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orball: in processor 0: orbit # iorb= 8 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 205 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 140 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426390.0981904 a. %note: constrained curt @ bdy to: 13426390.0981904 a. %note: constrained curt @ bdy to: 13426390.0981904 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13426390.0981904 a. %note: constrained curt @ bdy to: 13426390.0981904 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13426390.0981904 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13426390.0981904 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426390.0981904 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3976 - 0 (killed) + 12383 (dep) = 16359 ptcls. %depall specie #2 -> 1582 - 0 (killed) + 14540 (dep) = 16122 ptcls. %depall specie #3 -> 2620 - 0 (killed) + 13624 (dep) = 16244 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 61 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.861448E+08 1.836358E+08 %cxline - vtor.gt.vion; vtor,vion = 3.755025E+08 3.719927E+08 %cxline - vtor.gt.vion; vtor,vion = 3.756587E+08 3.719927E+08 %orball: in processor 0: orbit # iorb= 162 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.654843E+08 2.528746E+08 %cxline - vtor.gt.vion; vtor,vion = 4.108357E+08 4.054797E+08 %cxline - vtor.gt.vion; vtor,vion = 2.639881E+08 2.632045E+08 %cxline - vtor.gt.vion; vtor,vion = 3.074527E+08 3.071282E+08 %cxline - vtor.gt.vion; vtor,vion = 4.073944E+08 4.068159E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957431E+08 2.910091E+08 %cxline - vtor.gt.vion; vtor,vion = 6.002389E+08 5.984854E+08 %cxline - vtor.gt.vion; vtor,vion = 1.708708E+08 1.672206E+08 %cxline - vtor.gt.vion; vtor,vion = 2.186854E+08 2.183493E+08 %cxline - vtor.gt.vion; vtor,vion = 2.485482E+08 2.449517E+08 %cxline - vtor.gt.vion; vtor,vion = 2.931501E+08 2.829681E+08 %cxline - vtor.gt.vion; vtor,vion = 1.552126E+08 1.550869E+08 %cxline - vtor.gt.vion; vtor,vion = 5.408450E+08 5.389879E+08 %cxline - vtor.gt.vion; vtor,vion = 3.164340E+08 3.150057E+08 %cxline - vtor.gt.vion; vtor,vion = 3.099858E+08 3.094083E+08 %cxline - vtor.gt.vion; vtor,vion = 2.034602E+08 2.002928E+08 %cxline - vtor.gt.vion; vtor,vion = 2.003678E+08 2.002928E+08 %cxline - vtor.gt.vion; vtor,vion = 4.406608E+08 4.401619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.264539E+08 2.235495E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 104 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 105 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0180E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0248E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0171E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 141 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426130.6014821 a. %note: constrained curt @ bdy to: 13426130.6014821 a. nbstart... %note: constrained curt @ bdy to: 13426130.6014821 a. %note: constrained curt @ bdy to: 13426130.6014821 a. %note: constrained curt @ bdy to: 13426130.6014821 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13426130.6014821 a. %note: constrained curt @ bdy to: 13426130.6014821 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13426130.6014821 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4096 - 0 (killed) + 12233 (dep) = 16329 ptcls. %depall specie #2 -> 1648 - 0 (killed) + 14474 (dep) = 16122 ptcls. %depall specie #3 -> 2652 - 0 (killed) + 13562 (dep) = 16214 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 122 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.358957E+08 2.345241E+08 %cxline - vtor.gt.vion; vtor,vion = 9.661903E+07 9.609304E+07 %cxline - vtor.gt.vion; vtor,vion = 1.839411E+08 1.758982E+08 %cxline - vtor.gt.vion; vtor,vion = 3.002531E+08 2.949078E+08 %cxline - vtor.gt.vion; vtor,vion = 2.448333E+08 2.423374E+08 %cxline - vtor.gt.vion; vtor,vion = 2.466383E+08 2.423374E+08 %cxline - vtor.gt.vion; vtor,vion = 1.100463E+08 1.097306E+08 %cxline - vtor.gt.vion; vtor,vion = 2.424491E+08 2.396150E+08 %cxline - vtor.gt.vion; vtor,vion = 1.858804E+08 1.807414E+08 %cxline - vtor.gt.vion; vtor,vion = 4.467924E+08 4.431553E+08 %cxline - vtor.gt.vion; vtor,vion = 4.708836E+08 4.691933E+08 %cxline - vtor.gt.vion; vtor,vion = 2.260366E+08 2.250586E+08 %cxline - vtor.gt.vion; vtor,vion = 2.272127E+08 2.250586E+08 %cxline - vtor.gt.vion; vtor,vion = 2.103584E+08 2.094624E+08 %cxline - vtor.gt.vion; vtor,vion = 1.673685E+08 1.655367E+08 %cxline - vtor.gt.vion; vtor,vion = 1.160118E+08 1.149717E+08 %cxline - vtor.gt.vion; vtor,vion = 1.966876E+08 1.953388E+08 %cxline - vtor.gt.vion; vtor,vion = 1.812796E+08 1.806498E+08 %cxline - vtor.gt.vion; vtor,vion = 1.093829E+08 1.067293E+08 %cxline - vtor.gt.vion; vtor,vion = 1.092270E+08 1.067293E+08 %cxline - vtor.gt.vion; vtor,vion = 9.827286E+07 9.670720E+07 %cxline - vtor.gt.vion; vtor,vion = 3.795268E+08 3.780475E+08 %cxline - vtor.gt.vion; vtor,vion = 3.785316E+08 3.780475E+08 %cxline - vtor.gt.vion; vtor,vion = 2.729481E+08 2.728561E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 21 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orball: in processor 0: orbit # iorb= 44 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 46 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orball: in processor 0: orbit # iorb= 57 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 63 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 74 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0210E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 1400 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0241E+00 %orball: in processor 0: orbit # iorb= 163 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 182 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0192E+00 %orball: in processor 0: orbit # iorb= 274 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0169E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 142 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13428854.5619180 a. %note: constrained curt @ bdy to: 13428854.5619180 a. nbstart... %note: constrained curt @ bdy to: 13428854.5619180 a. %note: constrained curt @ bdy to: 13428854.5619180 a. nbstart... %note: constrained curt @ bdy to: 13428854.5619180 a. %note: constrained curt @ bdy to: 13428854.5619180 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13428854.5619180 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13428854.5619180 a. nbstart... %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4150 - 0 (killed) + 12190 (dep) = 16340 ptcls. %depall specie #2 -> 1691 - 0 (killed) + 14447 (dep) = 16138 ptcls. %depall specie #3 -> 2769 - 0 (killed) + 13488 (dep) = 16257 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.527856E+08 2.516892E+08 %cxline - vtor.gt.vion; vtor,vion = 2.578193E+08 2.536641E+08 %cxline - vtor.gt.vion; vtor,vion = 1.697343E+08 1.697053E+08 %cxline - vtor.gt.vion; vtor,vion = 4.488312E+08 4.453734E+08 %cxline - vtor.gt.vion; vtor,vion = 4.478084E+08 4.453734E+08 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.804717E+08 2.801300E+08 %cxline - vtor.gt.vion; vtor,vion = 7.868108E+07 7.839043E+07 %cxline - vtor.gt.vion; vtor,vion = 7.965560E+07 7.839043E+07 %orball: in processor 0: orbit # iorb= 400 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.426811E+08 2.422006E+08 %cxline - vtor.gt.vion; vtor,vion = 2.274992E+08 2.272190E+08 %cxline - vtor.gt.vion; vtor,vion = 2.273291E+08 2.272190E+08 %cxline - vtor.gt.vion; vtor,vion = 2.495164E+08 2.493030E+08 %cxline - vtor.gt.vion; vtor,vion = 2.123162E+08 2.094920E+08 %cxline - vtor.gt.vion; vtor,vion = 2.939780E+08 2.935210E+08 %cxline - vtor.gt.vion; vtor,vion = 5.288742E+08 5.286255E+08 %cxline - vtor.gt.vion; vtor,vion = 1.812420E+08 1.774837E+08 %cxline - vtor.gt.vion; vtor,vion = 2.683953E+08 2.674801E+08 %cxline - vtor.gt.vion; vtor,vion = 4.253579E+08 4.253059E+08 %cxline - vtor.gt.vion; vtor,vion = 3.853471E+08 3.850142E+08 %cxline - vtor.gt.vion; vtor,vion = 1.170778E+08 1.161591E+08 %cxline - vtor.gt.vion; vtor,vion = 6.959197E+08 6.941014E+08 %cxline - vtor.gt.vion; vtor,vion = 6.953767E+08 6.941014E+08 %cxline - vtor.gt.vion; vtor,vion = 2.491675E+08 2.483477E+08 %cxline - vtor.gt.vion; vtor,vion = 3.155463E+08 3.132802E+08 %cxline - vtor.gt.vion; vtor,vion = 3.248391E+08 3.210912E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orball: in processor 0: orbit # iorb= 56 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 83 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 115 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 125 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 131 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orball: in processor 0: orbit # iorb= 204 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 1584 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 12 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0167E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 143 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13420900.4323387 a. %note: constrained curt @ bdy to: 13420900.4323387 a. %note: constrained curt @ bdy to: 13420900.4323387 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13420900.4323387 a. nbstart... %note: constrained curt @ bdy to: 13420900.4323387 a. %note: constrained curt @ bdy to: 13420900.4323387 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13420900.4323387 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13420900.4323387 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4190 - 0 (killed) + 12202 (dep) = 16392 ptcls. %depall specie #2 -> 1701 - 0 (killed) + 14460 (dep) = 16161 ptcls. %depall specie #3 -> 2830 - 0 (killed) + 13471 (dep) = 16301 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.067681E+08 2.968335E+08 %cxline - vtor.gt.vion; vtor,vion = 2.680294E+08 2.656658E+08 %cxline - vtor.gt.vion; vtor,vion = 1.838664E+08 1.829861E+08 %cxline - vtor.gt.vion; vtor,vion = 3.489259E+08 3.487586E+08 %cxline - vtor.gt.vion; vtor,vion = 2.858929E+08 2.847584E+08 %cxline - vtor.gt.vion; vtor,vion = 1.128370E+08 1.118492E+08 %cxline - vtor.gt.vion; vtor,vion = 1.712199E+08 1.683396E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %cxline - vtor.gt.vion; vtor,vion = 1.403255E+08 1.376656E+08 %cxline - vtor.gt.vion; vtor,vion = 4.843068E+08 4.821313E+08 %cxline - vtor.gt.vion; vtor,vion = 5.612134E+08 5.489515E+08 %cxline - vtor.gt.vion; vtor,vion = 6.074900E+08 6.068242E+08 %cxline - vtor.gt.vion; vtor,vion = 2.585374E+08 2.563988E+08 %cxline - vtor.gt.vion; vtor,vion = 4.172663E+08 4.164665E+08 %cxline - vtor.gt.vion; vtor,vion = 2.914891E+08 2.901343E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orball: in processor 0: orbit # iorb= 1302 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.307711E+08 2.297741E+08 %cxline - vtor.gt.vion; vtor,vion = 1.487478E+08 1.402885E+08 %cxline - vtor.gt.vion; vtor,vion = 1.475920E+08 1.402885E+08 %cxline - vtor.gt.vion; vtor,vion = 1.441747E+08 1.402316E+08 %cxline - vtor.gt.vion; vtor,vion = 1.450047E+08 1.402316E+08 %cxline - vtor.gt.vion; vtor,vion = 1.462468E+08 1.400207E+08 %cxline - vtor.gt.vion; vtor,vion = 1.469695E+08 1.400207E+08 %cxline - vtor.gt.vion; vtor,vion = 6.553528E+08 6.382770E+08 %cxline - vtor.gt.vion; vtor,vion = 1.606644E+08 1.601096E+08 %cxline - vtor.gt.vion; vtor,vion = 2.820512E+08 2.760985E+08 %cxline - vtor.gt.vion; vtor,vion = 3.021566E+08 3.018666E+08 %cxline - vtor.gt.vion; vtor,vion = 3.036886E+08 3.018666E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orball: in processor 0: orbit # iorb= 10 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orball: in processor 0: orbit # iorb= 25 never inside plasma. %orball: in processor 0: orbit # iorb= 26 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 94 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 178 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0188E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 40 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 41 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 101 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orball: in processor 0: orbit # iorb= 278 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 956 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 entering outptb2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 144 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13419896.2803367 a. %note: constrained curt @ bdy to: 13419896.2803367 a. %note: constrained curt @ bdy to: 13419896.2803367 a. %note: constrained curt @ bdy to: 13419896.2803367 a. nbstart... %note: constrained curt @ bdy to: 13419896.2803367 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13419896.2803367 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13419896.2803367 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13419896.2803367 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.962E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4398 - 0 (killed) + 12122 (dep) = 16520 ptcls. %depall specie #2 -> 1733 - 0 (killed) + 14464 (dep) = 16197 ptcls. %depall specie #3 -> 2935 - 0 (killed) + 13438 (dep) = 16373 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 18 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.518076E+08 1.512607E+08 %cxline - vtor.gt.vion; vtor,vion = 1.503713E+08 1.468122E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957818E+08 2.951388E+08 %cxline - vtor.gt.vion; vtor,vion = 1.944505E+08 1.890099E+08 %cxline - vtor.gt.vion; vtor,vion = 2.917851E+08 2.896381E+08 %cxline - vtor.gt.vion; vtor,vion = 3.546594E+08 3.543331E+08 %cxline - vtor.gt.vion; vtor,vion = 2.173082E+08 2.148654E+08 %orball: in processor 0: orbit # iorb= 631 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.151170E+08 4.143669E+08 %cxline - vtor.gt.vion; vtor,vion = 2.655563E+08 2.654260E+08 %cxline - vtor.gt.vion; vtor,vion = 4.924268E+08 4.914017E+08 %cxline - vtor.gt.vion; vtor,vion = 2.667258E+08 2.651228E+08 %cxline - vtor.gt.vion; vtor,vion = 4.680084E+08 4.642772E+08 %cxline - vtor.gt.vion; vtor,vion = 4.656273E+08 4.642772E+08 %cxline - vtor.gt.vion; vtor,vion = 2.140143E+08 2.137704E+08 %cxline - vtor.gt.vion; vtor,vion = 2.180760E+08 2.137704E+08 %cxline - vtor.gt.vion; vtor,vion = 5.563141E+08 5.525735E+08 %cxline - vtor.gt.vion; vtor,vion = 5.139341E+08 5.130761E+08 %cxline - vtor.gt.vion; vtor,vion = 2.720177E+08 2.716217E+08 %cxline - vtor.gt.vion; vtor,vion = 6.120091E+08 6.101377E+08 %cxline - vtor.gt.vion; vtor,vion = 6.150046E+08 6.114306E+08 %cxline - vtor.gt.vion; vtor,vion = 3.496615E+08 3.492021E+08 %cxline - vtor.gt.vion; vtor,vion = 1.322437E+08 1.318232E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orball: in processor 0: orbit # iorb= 136 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orball: in processor 0: orbit # iorb= 171 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orball: in processor 0: orbit # iorb= 208 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 166 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0167E+00 %orball: in processor 0: orbit # iorb= 174 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0191E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0216E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 145 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13408947.9301794 a. %note: constrained curt @ bdy to: 13408947.9301794 a. %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13408947.9301794 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.985E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4549 - 0 (killed) + 12009 (dep) = 16558 ptcls. %depall specie #2 -> 1839 - 0 (killed) + 14384 (dep) = 16223 ptcls. %depall specie #3 -> 3076 - 0 (killed) + 13334 (dep) = 16410 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 44 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.313386E+08 1.256962E+08 %cxline - vtor.gt.vion; vtor,vion = 2.623318E+08 2.611144E+08 %cxline - vtor.gt.vion; vtor,vion = 1.334915E+08 1.329266E+08 %cxline - vtor.gt.vion; vtor,vion = 1.445520E+08 1.434542E+08 %cxline - vtor.gt.vion; vtor,vion = 6.797759E+07 6.564678E+07 %cxline - vtor.gt.vion; vtor,vion = 2.793647E+08 2.791763E+08 %orball: in processor 0: orbit # iorb= 342 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.505149E+08 1.503940E+08 %cxline - vtor.gt.vion; vtor,vion = 1.553799E+08 1.546948E+08 %cxline - vtor.gt.vion; vtor,vion = 1.553492E+08 1.548824E+08 %cxline - vtor.gt.vion; vtor,vion = 4.154471E+08 4.129412E+08 %cxline - vtor.gt.vion; vtor,vion = 2.432878E+08 2.405763E+08 %cxline - vtor.gt.vion; vtor,vion = 2.402990E+08 2.385923E+08 %cxline - vtor.gt.vion; vtor,vion = 3.399918E+08 3.396602E+08 %cxline - vtor.gt.vion; vtor,vion = 4.606710E+08 4.534886E+08 %cxline - vtor.gt.vion; vtor,vion = 2.528691E+08 2.498439E+08 %cxline - vtor.gt.vion; vtor,vion = 1.309408E+08 1.269863E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 3 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orball: in processor 0: orbit # iorb= 119 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 222 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orball: in processor 0: orbit # iorb= 224 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0211E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orball: in processor 0: orbit # iorb= 95 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 136 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 249 never inside plasma. %orball: in processor 0: orbit # iorb= 263 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 295 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orball: in processor 0: orbit # iorb= 354 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 146 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13408917.5158152 a. %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... %note: constrained curt @ bdy to: 13408917.5158152 a. %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13408917.5158152 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.960E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4800 - 0 (killed) + 11930 (dep) = 16730 ptcls. %depall specie #2 -> 1893 - 0 (killed) + 14388 (dep) = 16281 ptcls. %depall specie #3 -> 3204 - 0 (killed) + 13313 (dep) = 16517 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.462812E+08 2.451935E+08 %cxline - vtor.gt.vion; vtor,vion = 2.328645E+08 2.320850E+08 %cxline - vtor.gt.vion; vtor,vion = 3.709026E+08 3.705439E+08 %cxline - vtor.gt.vion; vtor,vion = 5.688488E+08 5.561550E+08 %cxline - vtor.gt.vion; vtor,vion = 1.998283E+08 1.996109E+08 %cxline - vtor.gt.vion; vtor,vion = 5.776249E+08 5.768559E+08 %cxline - vtor.gt.vion; vtor,vion = 2.525033E+08 2.493898E+08 %cxline - vtor.gt.vion; vtor,vion = 1.479905E+08 1.414284E+08 %cxline - vtor.gt.vion; vtor,vion = 2.333536E+08 2.325074E+08 %cxline - vtor.gt.vion; vtor,vion = 3.238305E+08 3.236488E+08 %cxline - vtor.gt.vion; vtor,vion = 3.206245E+08 3.197338E+08 %cxline - vtor.gt.vion; vtor,vion = 3.198070E+08 3.197338E+08 %cxline - vtor.gt.vion; vtor,vion = 4.088923E+08 4.071523E+08 %cxline - vtor.gt.vion; vtor,vion = 1.843502E+08 1.843420E+08 %orball: in processor 0: orbit # iorb= 743 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.069263E+08 2.043690E+08 %cxline - vtor.gt.vion; vtor,vion = 3.956115E+08 3.860744E+08 %cxline - vtor.gt.vion; vtor,vion = 2.149456E+08 2.145489E+08 %cxline - vtor.gt.vion; vtor,vion = 2.123961E+08 2.123137E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124282E+08 2.123137E+08 %cxline - vtor.gt.vion; vtor,vion = 1.911789E+08 1.898290E+08 %cxline - vtor.gt.vion; vtor,vion = 3.726447E+08 3.663472E+08 %cxline - vtor.gt.vion; vtor,vion = 1.083181E+08 1.075065E+08 %cxline - vtor.gt.vion; vtor,vion = 1.651004E+08 1.597255E+08 %cxline - vtor.gt.vion; vtor,vion = 1.328559E+08 1.323944E+08 %cxline - vtor.gt.vion; vtor,vion = 1.232873E+08 1.222465E+08 %orball: in processor 0: orbit # iorb= 1226 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.570495E+08 3.563062E+08 %orball: in processor 0: orbit # iorb= 1581 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.071674E+08 2.065471E+08 %cxline - vtor.gt.vion; vtor,vion = 4.470809E+08 4.467159E+08 %cxline - vtor.gt.vion; vtor,vion = 1.105394E+08 1.078675E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 90 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 160 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orball: in processor 0: orbit # iorb= 162 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orball: in processor 0: orbit # iorb= 168 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 199 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 207 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 226 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0179E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 179 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 147 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13379945.6780059 a. %note: constrained curt @ bdy to: 13379945.6780059 a. %note: constrained curt @ bdy to: 13379945.6780059 a. nbstart... %note: constrained curt @ bdy to: 13379945.6780059 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13379945.6780059 a. nbstart... %note: constrained curt @ bdy to: 13379945.6780059 a. %note: constrained curt @ bdy to: 13379945.6780059 a. nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13379945.6780059 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.967E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.970E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.968E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.921E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4999 - 0 (killed) + 11825 (dep) = 16824 ptcls. %depall specie #2 -> 1969 - 0 (killed) + 14351 (dep) = 16320 ptcls. %depall specie #3 -> 3447 - 0 (killed) + 13170 (dep) = 16617 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.777163E+08 3.769737E+08 %cxline - vtor.gt.vion; vtor,vion = 3.419377E+08 3.283686E+08 %cxline - vtor.gt.vion; vtor,vion = 1.585018E+08 1.539234E+08 %cxline - vtor.gt.vion; vtor,vion = 1.574654E+08 1.548324E+08 %cxline - vtor.gt.vion; vtor,vion = 1.605847E+08 1.548324E+08 %cxline - vtor.gt.vion; vtor,vion = 1.199272E+08 1.194933E+08 %cxline - vtor.gt.vion; vtor,vion = 3.107234E+08 3.096322E+08 %cxline - vtor.gt.vion; vtor,vion = 1.134959E+08 1.120356E+08 %cxline - vtor.gt.vion; vtor,vion = 5.573884E+08 5.555330E+08 %cxline - vtor.gt.vion; vtor,vion = 4.546029E+08 4.409795E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %cxline - vtor.gt.vion; vtor,vion = 5.256036E+08 5.254660E+08 %cxline - vtor.gt.vion; vtor,vion = 3.398249E+08 3.398087E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 33 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 57 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orball: in processor 0: orbit # iorb= 172 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orball: in processor 0: orbit # iorb= 192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 316 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orball: in processor 0: orbit # iorb= 375 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0177E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0290E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.979E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.932E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.901E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.908E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.981E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.975E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.978E+03 MB. ERRSET_MPI call by process myid= 0 ; istat = 999 **** myid= 0 MPI_ABORT CALL **** -------------------------------------------------------------------------- MPI_ABORT was invoked on rank 0 in communicator MPI COMMUNICATOR 4 CREATE FROM 0 with errorcode 999. NOTE: invoking MPI_ABORT causes Open MPI to kill all MPI processes. You may or may not see output from other processes, depending on exactly when Open MPI kills them. -------------------------------------------------------------------------- forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FBC0449D630 Unknown Unknown Unknown libc-2.17.so 00007FBC041BF0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FBBE7CF171B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FBBEC4FA9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FBBEC72E882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FBBECB6ECF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FBBFBD9E4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FBC04AF50CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FBC04B489AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FBC04B498EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FBBE5AD7BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FBC04B0BAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FBC04E31004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FBC040E2555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F39642C2630 Unknown Unknown Unknown libc-2.17.so 00007F3963FE40E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F3947CF171B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F394C2F79EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F394C52B882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F394C96BCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F395BBC34A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F396491A0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F396496D9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F396496E8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F39458CCBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F3964930AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F3964C56004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F3963F07555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FE9593E6630 Unknown Unknown Unknown libc-2.17.so 00007FE9591080E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FE940FDA71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FE9415149EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FE941748882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FE941B88CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FE950CE74A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FE959A3E0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FE959A919AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FE959A928EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FE93AB70BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FE959A54AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FE959D7A004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FE95902B555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FAF0365A630 Unknown Unknown Unknown libc-2.17.so 00007FAF0337C0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FAEE703D71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FAEE75779EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FAEE77AB882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FAEE7BEBCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FAEFAF5B4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FAF03CB20CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FAF03D059AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FAF03D068EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FAEE4C18BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FAF03CC8AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FAF03FEE004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FAF0329F555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FB71C938630 Unknown Unknown Unknown libc-2.17.so 00007FB71C65A0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FB7045C471B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FB704AFE9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FB704D32882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FB705172CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FB7142394A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FB71CF900CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FB71CFE39AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FB71CFE48EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FB6FE099BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FB71CFA6AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FB71D2CC004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FB71C57D555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F2195750630 Unknown Unknown Unknown libc-2.17.so 00007F21954720E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F217D42F71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F217D9699EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F217DB9D882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F217DFDDCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F218D0514A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F2195DA80CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F2195DFB9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F2195DFC8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F2176F8CBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F2195DBEAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F21960E4004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F2195395555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FC092AB6630 Unknown Unknown Unknown libc-2.17.so 00007FC0927D80E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FC0763AE71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FC0768E89EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FC076B1C882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FC076F5CCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FC08A3B74A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FC09310E0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FC0931619AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FC0931628EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FC073F89BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FC093124AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FC09344A004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FC0926FB555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F49AD51A630 Unknown Unknown Unknown libc-2.17.so 00007F49AD23C0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F49951DE71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F49957189EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F499594C882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F4995D8CCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F49A4E1B4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F49ADB720CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F49ADBC5C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F49ADBC68EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F498ED87BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F49ADB88AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F49ADEAE004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F49AD15F555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FBC2703B630 Unknown Unknown Unknown libc-2.17.so 00007FBC26D5D0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FBC0AA0371B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FBC0AF3D9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FBC0B171882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FBC0B5B1CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FBC1E93C4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FBC276930CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FBC276E6C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FBC276E78EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FBC085DEBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FBC276A9AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FBC279CF004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FBC26C80555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FA36E17C630 Unknown Unknown Unknown libuct.so.0.0.0 00007FA3561C55FA uct_mm_iface_prog Unknown Unknown libucp.so.0.0.0 00007FA3563FE882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FA35683ECF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FA365A7D4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FA36E7D40CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FA36E827C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FA36E8288EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FA34F7A2BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FA36E7EAAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FA36EB10004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FA36DDC1555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F3E4D7DB630 Unknown Unknown Unknown libc-2.17.so 00007F3E4D4FD0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F3E3540E71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F3E359489EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F3E35B7C882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F3E35FBCCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F3E450DC4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F3E4DE330CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F3E4DE869AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F3E4DE878EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F3E2EF8CBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F3E4DE49AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F3E4E16F004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F3E4D420555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F098E3C2630 Unknown Unknown Unknown libc-2.17.so 00007F098E0E40E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F0975EDC71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F09764169EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F097664A882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F0976A8ACF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F0985CC34A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F098EA1A0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F098EA6D9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F098EA6E8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F096F9B0BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F098EA30AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F098ED56004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F098E007555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F9E82A10630 Unknown Unknown Unknown libc-2.17.so 00007F9E827320E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F9E6A60271B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F9E6AB3C9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F9E6AD70882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F9E6B1B0CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F9E7A3114A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F9E830680CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F9E830BB9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F9E830BC8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F9E681DDBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F9E8307EAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F9E833A4004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F9E82655555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F836AA35630 Unknown Unknown Unknown libc-2.17.so 00007F836A7570E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F835260271B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F8352B3C9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F8352D70882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F83531B0CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F83623364A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F836B08D0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F836B0E09AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F836B0E18EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F83501DDBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F836B0A3AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F836B3C9004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F836A67A555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F07CBB07630 Unknown Unknown Unknown libc-2.17.so 00007F07CB8290E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F07AF65971B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F07AFB939EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F07AFDC7882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F07B436ECF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F07C34084A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F07CC15F0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F07CC1B2C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F07CC1B38EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F07AD234BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F07CC175AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F07CC49B004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F07CB74C555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F5A5B3E6630 Unknown Unknown Unknown libc-2.17.so 00007F5A5B1080E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F5A3EE3571B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F5A3F36F9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F5A3F5A3882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F5A3F9E3CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F5A52CE74A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F5A5BA3E0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F5A5BA91C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F5A5BA928EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F5A3CA10BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F5A5BA54AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F5A5BD7A004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F5A5B02B555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FDE26010630 Unknown Unknown Unknown libc-2.17.so 00007FDE25D320E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FDE0DA5F71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FDE0DF999EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FDE0E1CD882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FDE0E60DCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FDE1D9114A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FDE266680CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FDE266BBC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FDE266BC8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FDE0759DBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FDE2667EAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FDE269A4004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FDE25C55555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F4B305E3630 Unknown Unknown Unknown libc-2.17.so 00007F4B303050E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F4B181BD71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F4B186F79EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F4B1892B882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F4B18D6BCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F4B27EE44A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F4B30C3B0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F4B30C8EC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F4B30C8F8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F4B11C2EBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F4B30C51AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F4B30F77004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F4B30228555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F422DF21630 Unknown Unknown Unknown libc-2.17.so 00007F422DC430E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F4215A5F71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F4215F999EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F42161CD882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F421660DCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F42258224A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F422E5790CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F422E5CC9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F422E5CD8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F420F59DBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F422E58FAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F422E8B5004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F422DB66555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F0524D3C630 Unknown Unknown Unknown libucp.so.0.0.0 00007F050D13A870 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F050D57ACF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F051C63D4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F05253940CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F05253E7C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F05253E88EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F05064DABA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F05253AAAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F05256D0004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F0524981555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F82732D3630 Unknown Unknown Unknown libc-2.17.so 00007F8272FF50E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F8256C3171B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F825716B9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F825739F882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F82577DFCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F826ABD44A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F827392B0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F827397EC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F827397F8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F825480CBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F8273941AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F8273C67004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F8272F18555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F4C71980630 Unknown Unknown Unknown libc-2.17.so 00007F4C716A20E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F4C5943971B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F4C599739EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F4C59BA7882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F4C59FE7CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F4C692814A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F4C71FD80CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F4C7202BC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F4C7202C8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F4C52F8CBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F4C71FEEAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F4C72314004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F4C715C5555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FAC57511630 Unknown Unknown Unknown libc-2.17.so 00007FAC572330E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FAC3B03D71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FAC3B5779EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FAC3B7AB882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FAC3BBEBCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FAC4EE124A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FAC57B690CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FAC57BBCC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FAC57BBD8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FAC38C18BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FAC57B7FAD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FAC57EA5004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FAC57156555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FF6C2766630 Unknown Unknown Unknown libc-2.17.so 00007FF6C24880E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FF6AA39C71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FF6AA8D69EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FF6AAB0A882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FF6AAF4ACF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FF6BA0674A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FF6C2DBE0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FF6C2E119AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FF6C2E128EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FF6A3DF1BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FF6C2DD4AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FF6C30FA004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FF6C23AB555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F8BF6229630 Unknown Unknown Unknown libc-2.17.so 00007F8BF5F4B0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F8BDDC9071B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F8BDE1CA9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F8BDE3FE882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F8BDE83ECF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F8BEDB2A4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F8BF68810CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F8BF68D4C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F8BF68D58EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F8BD77A2BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F8BF6897AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F8BF6BBD004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F8BF5E6E555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FBED4E0B630 Unknown Unknown Unknown libc-2.17.so 00007FBED4B2D0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FBEBC9CD71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FBEBCF079EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FBEBD13B882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FBEBD57BCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FBECC70C4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FBED54630CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FBED54B6C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FBED54B78EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FBEB64DABA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FBED5479AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FBED579F004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FBED4A50555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FB8036EB630 Unknown Unknown Unknown libc-2.17.so 00007FB80340D0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FB7E703D71B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FB7E75779EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FB7E77AB882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FB7E7BEBCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FB7FAFEC4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FB803D430CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FB803D96C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FB803D978EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FB7E4C18BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FB803D59AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FB80407F004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FB803330555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F06FC376630 Unknown Unknown Unknown libc-2.17.so 00007F06FC0980E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F06DFCF171B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F06E44FB9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F06E472F882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F06E4B6FCF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F06F3C774A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F06FC9CE0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F06FCA219AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F06FCA228EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F06DDAD7BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F06FC9E4AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F06FCD0A004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F06FBFBB555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FE674534630 Unknown Unknown Unknown libc-2.17.so 00007FE6742560E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FE65C1C471B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FE65C6FE9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FE65C932882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FE65CD72CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FE66BE354A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FE674B8C0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FE674BDF9AF ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FE674BE08EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FE655C2EBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FE674BA2AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FE674EC8004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FE674179555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007FCE0EB83630 Unknown Unknown Unknown libc-2.17.so 00007FCE0E8A50E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007FCDF260271B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007FCDF2B3C9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007FCDF2D70882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007FCDF31B0CF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007FCE064844A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007FCE0F1DB0CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007FCE0F22EC9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007FCE0F22F8EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007FCDF01DDBA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007FCE0F1F1AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007FCE0F517004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007FCE0E7C8555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown forrtl: error (78): process killed (SIGTERM) Image PC Routine Line Source 00425I19TR.EXE 0000000003E40354 Unknown Unknown Unknown libpthread-2.17.s 00007F42D3A19630 Unknown Unknown Unknown libc-2.17.so 00007F42D373B0E3 epoll_wait Unknown Unknown libucs.so.0.0.0 00007F42B745571B ucs_event_set_wai Unknown Unknown libuct.so.0.0.0 00007F42B798F9EF uct_tcp_iface_pro Unknown Unknown libucp.so.0.0.0 00007F42B7BC3882 ucp_worker_progre Unknown Unknown mca_pml_ucx.so 00007F42BC16ACF4 mca_pml_ucx_progr Unknown Unknown libopen-pal.so.40 00007F42CB31A4A4 opal_progress Unknown Unknown libmpi.so.40.20.3 00007F42D40710CF ompi_request_defa Unknown Unknown libmpi.so.40.20.3 00007F42D40C4C9F ompi_coll_base_bc Unknown Unknown libmpi.so.40.20.3 00007F42D40C58EE ompi_coll_base_bc Unknown Unknown mca_coll_tuned.so 00007F42B5030BA6 ompi_coll_tuned_b Unknown Unknown libmpi.so.40.20.3 00007F42D4087AD7 MPI_Bcast Unknown Unknown libmpi_mpifh.so.4 00007F42D43AD004 pmpi_bcast Unknown Unknown 00425I19TR.EXE 0000000002DD2DC7 trmpi_ears_ 30 trmpi_ears_.f90 00425I19TR.EXE 0000000001361774 trmpi_listener_ 122 trmpi_listener_.f90 00425I19TR.EXE 000000000135F3FF trmpi_init_ 299 trmpi_init_.f90 00425I19TR.EXE 0000000000438C6C MAIN__ 7884 port_.f 00425I19TR.EXE 0000000000438BF2 Unknown Unknown Unknown libc-2.17.so 00007F42D365E555 __libc_start_main Unknown Unknown 00425I19TR.EXE 0000000000438AF7 Unknown Unknown Unknown ==>runtrx: 00425I19TR.EXE took timeout exit. ==========add RS times to MDSplus ======== ==========(runtrx)====================== ************************************************************************ Program: mds_start Version: v0.3.2 Revision: 953b182 Date: 10/05/2023 ************************************************************************ mds_conopn: option = 4 4250919 TRANSP_ST40 ...connecting to server: TRANSPGRID.PPPL.GOV ...tcl("EDIT TRANSP_ST40/SHOT=4250919") nid = 1 open 00425I19_nubeam_init.dat add_file: 171 lines - 80 tcl("WRITE") stat = 1 ==========(runtrx)====================== date: Mon Jan 27 11:14:42 EST 2025 ( mccune001.pppl.gov ) ==========>runtrx error exit status: 4 ==>runtrx start: date: Mon Jan 27 11:24:19 EST 2025 ( mccune001.pppl.gov ) argv = 4 iarg = 2 cmd_opt = rs argv = 4 iarg = 3 runtrx: logfile_level = 1 (warn) runtrx: tok.yy = ST40.24 ==========(runtrx)====================== date: Mon Jan 27 11:24:19 EST 2025 ( mccune001.pppl.gov ) args: 00425I19 rs -log 1 ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP execution============== date: Mon Jan 27 11:24:19 EST 2025 ( mccune001.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 00425I19 %shell_server_exec: dir0 = /local/tr_xzhang/transp_compute/ST40/00425I19 %shell_server_exec: dirN = /local/tr_xzhang/transp_compute/ST40/00425I19 %shell_server_exec: testfile = 00425I19_3106_test.dat %shell_server_exec: not a parallel file system, did not find mccune002.pppl.gov:/local/tr_xzhang/transp_compute/ST40/00425I19/00425I19_3106_test.dat %runtrx: TRANSP_EXEC_METHOD = 0 %runtrx: TRANSP_PARALLEL_FILESYS = NO ***** restarting 00425I19 ***** found 00425I19_rs_save/00425I19RS.DAT ...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/mccune001/tr_xzhang/transp_compute/ST40/00425I19/00425I19TR.EXE 00425I19R ... %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_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 trmpi_init: NBI_NPROCS = 8 8 %initcpl: MDS_CACHE enabled. %trmpi_openlog: LOGFILE_LEVEL = warn DATE: Mon Jan 27 11:24:27 2025 TRANSP Version: 24.0.1 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2023/10/21 >>>> resume <<<< %splitn_module: update block detected, t= 40.0000000000000 namelist elements assigned the same value more than once: DTBEAM namelist element value field(s): decimal point(s) inserted: EDGENE DTECH TECHON TECHOFF POWECH FREQECH TZOOM XECECH PHECECH THETECH PHAIECH RFMODECH FE_OUTTIM TONICHA APROF_AXIS_VALUE_TER APROF_AXIS_VALUE_TI2 APROF_AXIS_VALUE_QPR TEEDGE[1] TIEDGE[1] ZECECH "[ ]" indicates warning pertaining to indicated update block. ps_init_tag: Plasma State v3.000 f90 module initialization. %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). --> FTIME = 200.000000000000 in namelist; --> FTIME = 200.000000000000 in ../00425I19PH.CDF --> FTIME_OK = 9.999999999999999E+033 in namelist; --> FTIME_OK = 9.999999999999999E+033 in ../00425I19PH.CDF %trgdat: NLBCCW= T from PH.CDF file %trgdat: NLJCCW= T from PH.CDF file %trcom_static_box: loading static data %trgdat: NMOM= 16 %LH_ONOFF: no LH on/off times found. %EC_ONOFF: no ECH on/off times found. %ICRF_ONOFF: no ICRF on/off times found. %NB_ONOFF: no NBI on/off times found. %tabort_update: no namelist TABORT requests after t= 151.000000000000 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init READ RESTART RECORD TA = 150.000000 NSTEP = 75087 CPU time = 7.778070E+01 Secs LABORT = 1 TABORT = 1.0000E+34 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 -1.0000E+30 resume: call trmpi_set_numprocs(TRANSP_NPROCS) %trmpi_set_numprocs: TRANSP w/MPI linked in, numprocs= 32. resume: call mpi_sset_env resume: call trmpi_env_update trmpi_env_update broadcast (cpu0): mpi_share_env done. dmg_datbuf_expand call from dmgini_sized: isize= 0 ...reading TF.PLN header data... --> plasma_hash("gframe"): TA= 1.500000E+02 NSTEP= 75087 Hash code: 4512099 ->PRGCHK: bdy curvature ratio at t= 1.5100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 150.000000 ; TG2= 151.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4660E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 150.000000 TO TG2= 151.000000 @ NSTEP 75087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 arrays allocated in pt_nclass_data_init %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %nclass_driver: Allocating module variables %nclass_driver_mod: replacing geometry module variables in the ncbox %nclass_geometry: Deallocating module variables %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %check_save_state: SLURM_JOB_ID = 6777678 %check_save_state: QSHARE= /p/transpgrid/qshare AUXVAL: RESET DTMINT TO NUMERIC MINIMUM AUXVAL: RESET DTMINB TO NUMERIC MINIMUM %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.0158386111111 %check_save_state: izleft hours = 79.9105555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5024200E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.090E+03 MB. %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.0997958333334 %check_save_state: izleft hours = 79.8266666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5046600E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.090E+03 MB. %MFRCHK - LABEL "BALE0_SGF", # 85= 1.31325E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.43708E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.65763E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.43707E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.59794E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75428 TA= 1.50682E+02 CPU TIME= 8.29914E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75559 TA= 1.50944E+02 CPU TIME= 8.04803E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75567 TA= 1.50960E+02 CPU TIME= 8.20025E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75584 TA= 1.50994E+02 CPU TIME= 8.25615E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= -1.72651E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.32175E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 1.60253E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.32174E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 91= 1.60712E-38 RESET TO ZERO fimain: call trmpi_group => tr_rfprep: TORIC_MPI detected setting zgrid%ncpu = 32 and zgrid%ncptype = 1 !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.101E-05 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.27983699999982 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9309E+00 8.4475E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 268.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 268.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 542.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 404.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 285.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 575.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 285.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 575.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 575.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 431.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.999999873689376E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75587 TA= 1.51000E+02 CPU TIME= 8.50215E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.4238186111112 %check_save_state: izleft hours = 79.5027777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.191E+03 MB. --> plasma_hash("gframe"): TA= 1.510000E+02 NSTEP= 75587 Hash code: 115251189 ->PRGCHK: bdy curvature ratio at t= 1.5200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 151.000000 ; TG2= 152.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6940E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 151.000000 TO TG2= 152.000000 @ NSTEP 75587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75614 TA= 1.51054E+02 CPU TIME= 8.47947E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75656 TA= 1.51138E+02 CPU TIME= 8.48752E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75710 TA= 1.51246E+02 CPU TIME= 8.43044E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75770 TA= 1.51366E+02 CPU TIME= 7.75105E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 95= -3.88464E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.20244E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.93773E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.20243E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.94691E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75837 TA= 1.51500E+02 CPU TIME= 8.27691E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75920 TA= 1.51666E+02 CPU TIME= 7.79157E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76023 TA= 1.51872E+02 CPU TIME= 7.94307E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 95= -1.53365E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 3.43358E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.33900E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= 1.57957E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 3.43357E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.33900E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= 1.56120E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 8.757E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.15032500000007 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9299E+00 8.4476E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 403.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 573.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 573.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 573.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 429.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %lossco: losscone repaired due to unexpected gaps in co pitch space. %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000222324161E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76087 TA= 1.52000E+02 CPU TIME= 7.76019E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.6326933333334 %check_save_state: izleft hours = 79.2938888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.592E+03 MB. --> plasma_hash("gframe"): TA= 1.520000E+02 NSTEP= 76087 Hash code: 51558582 ->PRGCHK: bdy curvature ratio at t= 1.5300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 152.000000 ; TG2= 153.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5650E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 152.000000 TO TG2= 153.000000 @ NSTEP 76087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.7162588888889 %check_save_state: izleft hours = 79.2102777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5228000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.367E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76278 TA= 1.52382E+02 CPU TIME= 7.67423E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 2.01120E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.34917E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.38643E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.30507E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.34916E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.38643E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.24079E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76574 TA= 1.52974E+02 CPU TIME= 7.82683E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= 1.77243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.42193E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 61= 1.31849E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.95610E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.42193E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 61= 1.31848E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.92855E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 9.560E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.15100000000029 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9623E+00 8.4476E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 540.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 405.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 576.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 576.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 576.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 430.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999999651365215E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76587 TA= 1.53000E+02 CPU TIME= 7.20004E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 78.9116494444444 %check_save_state: izleft hours = 79.0147222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.704E+03 MB. --> plasma_hash("gframe"): TA= 1.530000E+02 NSTEP= 76587 Hash code: 3048047 ->PRGCHK: bdy curvature ratio at t= 1.5400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 153.000000 ; TG2= 154.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4650E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 153.000000 TO TG2= 154.000000 @ NSTEP 76587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76744 TA= 1.53314E+02 CPU TIME= 8.05095E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 96= -2.73670E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 12= 1.25869E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 63= 1.56198E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 6.43813E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 96= -1.35917E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 12= 1.25869E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 63= 1.56198E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 6.43812E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 96= -1.37753E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76966 TA= 1.53758E+02 CPU TIME= 7.73811E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 5.00873E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 95= -3.06731E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 14= 1.29139E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 63= 1.47782E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 2.50437E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.56120E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 14= 1.29138E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 63= 1.47782E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 2.50436E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.50610E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.878E-07 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.20388400000002 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9824E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77087 TA= 1.54000E+02 CPU TIME= 7.22869E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 79.1469619444445 %check_save_state: izleft hours = 78.7794444444445 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.806E+03 MB. --> plasma_hash("gframe"): TA= 1.540000E+02 NSTEP= 77087 Hash code: 40319319 ->PRGCHK: bdy curvature ratio at t= 1.5500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 154.000000 ; TG2= 155.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4690E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 154.000000 TO TG2= 155.000000 @ NSTEP 77087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77161 TA= 1.54148E+02 CPU TIME= 7.88637E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77180 TA= 1.54186E+02 CPU TIME= 7.81716E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77196 TA= 1.54218E+02 CPU TIME= 7.83381E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77220 TA= 1.54266E+02 CPU TIME= 8.11986E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77256 TA= 1.54338E+02 CPU TIME= 7.79327E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77309 TA= 1.54444E+02 CPU TIME= 7.22188E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 8.30156E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.50151E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.23999E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.31440E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 4.15078E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.23999E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.31440E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 4.15078E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.23978E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77383 TA= 1.54592E+02 CPU TIME= 7.21786E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77486 TA= 1.54798E+02 CPU TIME= 7.69433E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 9.00908E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.63926E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.20989E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.30299E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 4.50454E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.68160E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.20989E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.30299E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 4.50454E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.62650E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.04888699999992 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9995E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 1.999999767576810E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77587 TA= 1.55000E+02 CPU TIME= 7.63766E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 79.3847838888889 %check_save_state: izleft hours = 78.5416666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.464E+03 MB. --> plasma_hash("gframe"): TA= 1.550000E+02 NSTEP= 77587 Hash code: 43604139 ->PRGCHK: bdy curvature ratio at t= 1.5600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 155.000000 ; TG2= 156.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4740E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 155.000000 TO TG2= 156.000000 @ NSTEP 77587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77779 TA= 1.55384E+02 CPU TIME= 7.89681E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 5.70004E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 92= -1.42345E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.23239E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.55639E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 2.85002E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 94= -1.39590E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.23239E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.55639E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 2.85002E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 94= -1.39590E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78019 TA= 1.55864E+02 CPU TIME= 7.44370E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 2.07013E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.29424E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.47159E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 2= 1.59252E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.96528E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.29424E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.47158E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 2= 1.59252E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.05712E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.75077799999963 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 3.0025E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78087 TA= 1.56000E+02 CPU TIME= 8.28846E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 79.5605519444446 %check_save_state: izleft hours = 78.3661111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.560000E+02 NSTEP= 78087 Hash code: 8211055 ->PRGCHK: bdy curvature ratio at t= 1.5700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 156.000000 ; TG2= 157.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7000E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 156.000000 TO TG2= 157.000000 @ NSTEP 78087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 2= 1.99473E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.12829E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.34399E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.21182E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 3= 1.56681E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.66222E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.34399E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.21182E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 3= 1.56680E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.68059E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78337 TA= 1.56500E+02 CPU TIME= 7.79875E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -5.55823E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.23619E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.22641E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.25174E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -2.77912E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.84589E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.22641E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.25174E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -2.77912E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.84130E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.33187799999996 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9969E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78587 TA= 1.57000E+02 CPU TIME= 7.85670E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 79.7360997222223 %check_save_state: izleft hours = 78.1905555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.570000E+02 NSTEP= 78587 Hash code: 45341926 ->PRGCHK: bdy curvature ratio at t= 1.5800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 157.000000 ; TG2= 158.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5640E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 157.000000 TO TG2= 158.000000 @ NSTEP 78587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.33262E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.35560E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.52663E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -6.72917E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.80457E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.35560E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.52663E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -6.72916E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.18009E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78967 TA= 1.57760E+02 CPU TIME= 7.66944E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.45330E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 4= 1.29692E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.45643E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -3.56322E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 4= 1.29692E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.45642E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -3.52648E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.08825799999977 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9870E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79087 TA= 1.58000E+02 CPU TIME= 7.93638E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 79.9142727777779 %check_save_state: izleft hours = 78.0122222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.580000E+02 NSTEP= 79087 Hash code: 48660107 ->PRGCHK: bdy curvature ratio at t= 1.5900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 158.000000 ; TG2= 159.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 158.000000 TO TG2= 159.000000 @ NSTEP 79087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 4= 1.43061E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.21495E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 4= 1.43060E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.21495E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.64486E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 4= 1.43061E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.21495E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 4= 1.43060E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.21495E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32243E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.36609099999987 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9764E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79587 TA= 1.59000E+02 CPU TIME= 8.45643E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 80.1012069444446 %check_save_state: izleft hours = 77.8252777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.590000E+02 NSTEP= 79587 Hash code: 68642788 ->PRGCHK: bdy curvature ratio at t= 1.6000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 159.000000 ; TG2= 160.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6520E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 159.000000 TO TG2= 160.000000 @ NSTEP 79587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.62190E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.35047E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.43615E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.35047E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.43614E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.31784E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.62190E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.35047E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.43615E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.35047E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.43614E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.31784E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.46224699999948 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9670E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 550.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 550.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80087 TA= 1.60000E+02 CPU TIME= 8.24967E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 80.3020786111112 %check_save_state: izleft hours = 77.6244444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.600000E+02 NSTEP= 80087 Hash code: 29965442 ->PRGCHK: bdy curvature ratio at t= 1.6100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 160.000000 ; TG2= 161.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5770E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 160.000000 TO TG2= 161.000000 @ NSTEP 80087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.51629E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.34791E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.24084E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.34791E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.24083E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.51629E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.34791E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.24084E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.34791E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.24083E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.23978E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.41162499999882 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9601E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80587 TA= 1.61000E+02 CPU TIME= 9.15038E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 80.5087825000001 %check_save_state: izleft hours = 77.4177777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.610000E+02 NSTEP= 80587 Hash code: 121382521 ->PRGCHK: bdy curvature ratio at t= 1.6200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 161.000000 ; TG2= 162.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 161.000000 TO TG2= 162.000000 @ NSTEP 80587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.73211E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.32915E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.31676E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.32914E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.31676E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.35457E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81000 TA= 1.61826E+02 CPU TIME= 7.64128E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 88= -1.92395E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.10586E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.34703E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= -1.67141E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.10585E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.34703E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= -1.60712E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.502E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.80284899999970 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9551E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81087 TA= 1.62000E+02 CPU TIME= 7.93794E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 80.7305655555556 %check_save_state: izleft hours = 77.1961111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.597E+03 MB. --> plasma_hash("gframe"): TA= 1.620000E+02 NSTEP= 81087 Hash code: 58979174 ->PRGCHK: bdy curvature ratio at t= 1.6300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 162.000000 ; TG2= 163.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6670E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 162.000000 TO TG2= 163.000000 @ NSTEP 81087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.58058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.75764E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.34497E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.75762E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.34497E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.27651E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81477 TA= 1.62780E+02 CPU TIME= 7.63831E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.99283E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.43098E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 2.42446E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.43097E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 2.36017E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.735E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.10176000000138 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9515E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81587 TA= 1.63000E+02 CPU TIME= 7.82530E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 80.9932244444445 %check_save_state: izleft hours = 76.9333333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.630000E+02 NSTEP= 81587 Hash code: 55799158 ->PRGCHK: bdy curvature ratio at t= 1.6400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 163.000000 ; TG2= 164.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7690E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 163.000000 TO TG2= 164.000000 @ NSTEP 81587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81703 TA= 1.63232E+02 CPU TIME= 7.33943E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81724 TA= 1.63274E+02 CPU TIME= 7.65112E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81754 TA= 1.63334E+02 CPU TIME= 7.12630E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81795 TA= 1.63416E+02 CPU TIME= 7.83249E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 92= -1.47855E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.55456E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.38652E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.98365E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.55455E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.38652E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.05712E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 92= -1.47855E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.55456E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.38652E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.98365E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.55455E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.38652E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.05712E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.165E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.57992400000148 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9481E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.3 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.3 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.3 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.3 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82087 TA= 1.64000E+02 CPU TIME= 7.14135E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 81.2116586111112 %check_save_state: izleft hours = 76.7150000000000 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.597E+03 MB. --> plasma_hash("gframe"): TA= 1.640000E+02 NSTEP= 82087 Hash code: 10872614 ->PRGCHK: bdy curvature ratio at t= 1.6500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 164.000000 ; TG2= 165.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4250E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 164.000000 TO TG2= 165.000000 @ NSTEP 82087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.07319E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 7.79177E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.37114E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.54743E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 7.79175E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.37113E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.56580E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82456 TA= 1.64738E+02 CPU TIME= 7.81533E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82493 TA= 1.64812E+02 CPU TIME= 7.80187E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82545 TA= 1.64916E+02 CPU TIME= 7.60985E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= -1.77243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.71967E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.48469E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -1.74487E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.71967E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.48469E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -1.65304E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.56167099999948 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9562E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82587 TA= 1.65000E+02 CPU TIME= 7.67247E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 81.4916883333333 %check_save_state: izleft hours = 76.4347222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.650000E+02 NSTEP= 82587 Hash code: 120139502 ->PRGCHK: bdy curvature ratio at t= 1.6600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 165.000000 ; TG2= 166.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8160E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 165.000000 TO TG2= 166.000000 @ NSTEP 82587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82687 TA= 1.65200E+02 CPU TIME= 7.18718E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= -1.68977E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.21574E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.22538E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -8.75428E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.05712E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.21573E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.22538E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -8.75427E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.00201E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82859 TA= 1.65544E+02 CPU TIME= 7.95387E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -5.62623E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 93= -1.63467E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.20493E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.53948E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -2.81312E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.35099E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.20493E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.53947E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -2.81311E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.42446E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.05615500000022 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9679E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83087 TA= 1.66000E+02 CPU TIME= 7.79839E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 81.6719175000001 %check_save_state: izleft hours = 76.2547222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.660000E+02 NSTEP= 83087 Hash code: 20328131 ->PRGCHK: bdy curvature ratio at t= 1.6700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 166.000000 ; TG2= 167.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5940E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 166.000000 TO TG2= 167.000000 @ NSTEP 83087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83328 TA= 1.66482E+02 CPU TIME= 7.60934E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 6= -1.22727E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.71273E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 12= 1.50872E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.26829E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 8= -1.37803E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.31325E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 12= 1.50872E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.26829E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 8= -1.37803E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.34080E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83351 TA= 1.66528E+02 CPU TIME= 7.64782E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83388 TA= 1.66602E+02 CPU TIME= 7.66560E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83468 TA= 1.66762E+02 CPU TIME= 7.10469E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83515 TA= 1.66856E+02 CPU TIME= 7.32391E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 12= -1.46082E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 93= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 13= 1.27073E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.30595E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 14= -1.66494E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -1.61630E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 13= 1.27073E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.30595E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 14= -1.66494E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -1.72651E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.17412599999989 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9850E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83587 TA= 1.67000E+02 CPU TIME= 7.97150E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 81.8800927777778 %check_save_state: izleft hours = 76.0463888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.670000E+02 NSTEP= 83587 Hash code: 97354886 ->PRGCHK: bdy curvature ratio at t= 1.6800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 167.000000 ; TG2= 168.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 167.000000 TO TG2= 168.000000 @ NSTEP 83587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83663 TA= 1.67152E+02 CPU TIME= 7.10547E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83687 TA= 1.67200E+02 CPU TIME= 7.09603E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83724 TA= 1.67274E+02 CPU TIME= 7.53068E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83782 TA= 1.67390E+02 CPU TIME= 7.61568E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 20= -1.22073E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 91= 1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 11= 1.24480E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.52242E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 21= -1.18714E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.97547E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 11= 1.24479E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.52242E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 21= -1.18714E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -3.19588E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83868 TA= 1.67562E+02 CPU TIME= 7.64771E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83994 TA= 1.67814E+02 CPU TIME= 8.02068E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 10= -1.25712E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.33835E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.51125E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 11= -1.25958E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 96= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.33835E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.51124E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 11= -1.25957E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 96= -1.34080E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.58789799999977 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9967E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999999196617864E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84087 TA= 1.68000E+02 CPU TIME= 7.77822E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 82.0698561111112 %check_save_state: izleft hours = 75.8566666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.592E+03 MB. --> plasma_hash("gframe"): TA= 1.680000E+02 NSTEP= 84087 Hash code: 37342475 ->PRGCHK: bdy curvature ratio at t= 1.6900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 168.000000 ; TG2= 169.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6050E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 168.000000 TO TG2= 169.000000 @ NSTEP 84087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 8= -1.42960E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.99513E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.50067E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.36257E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 10= -1.96243E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.53824E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.50067E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.36257E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 10= -1.96243E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.50151E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84348 TA= 1.68522E+02 CPU TIME= 7.80702E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 4= -1.24112E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.95839E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.42669E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.19058E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 6= -1.38199E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.53365E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.42669E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.19058E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 6= -1.38199E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.52447E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.24789899999996 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9986E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 1.999998858082108E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84587 TA= 1.69000E+02 CPU TIME= 7.63608E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 82.2634411111112 %check_save_state: izleft hours = 75.6630555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.690000E+02 NSTEP= 84587 Hash code: 47314376 ->PRGCHK: bdy curvature ratio at t= 1.7000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 169.000000 ; TG2= 170.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5420E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 169.000000 TO TG2= 170.000000 @ NSTEP 84587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 1= -1.99104E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.09385E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.58977E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.51436E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 4= -1.56911E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.66222E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.58977E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.51436E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 4= -1.56911E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.60253E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84886 TA= 1.69598E+02 CPU TIME= 8.50772E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -5.17274E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 85= 1.32702E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.44029E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.20827E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -2.58637E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.69996E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.44029E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.20827E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -2.58637E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.66323E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.11421699999846 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9934E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 85087 TA= 1.70000E+02 CPU TIME= 7.65268E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 82.4400133333335 %check_save_state: izleft hours = 75.4863888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.806E+03 MB. --> plasma_hash("gframe"): TA= 1.700000E+02 NSTEP= 85087 Hash code: 97012887 ->PRGCHK: bdy curvature ratio at t= 1.7100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 170.000000 ; TG2= 171.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3140E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 170.000000 TO TG2= 171.000000 @ NSTEP 85087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 1= -9.20458E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.48874E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.19864E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.43553E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -4.60229E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.25815E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.19864E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.43553E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -4.60228E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.23060E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 85541 TA= 1.70908E+02 CPU TIME= 7.33014E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 90= 1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.23487E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.38489E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -3.50812E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.23487E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.38489E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -3.66424E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.77035199999955 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9842E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 85587 TA= 1.71000E+02 CPU TIME= 7.16611E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 82.6217983333334 %check_save_state: izleft hours = 75.3047222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.806E+03 MB. --> plasma_hash("gframe"): TA= 1.710000E+02 NSTEP= 85587 Hash code: 66321665 ->PRGCHK: bdy curvature ratio at t= 1.7200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 171.000000 ; TG2= 172.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2400E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 171.000000 TO TG2= 172.000000 @ NSTEP 85587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.61731E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.33488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.45550E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.33488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.45549E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.31784E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.61731E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.33488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.45550E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.29947E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.33488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.45549E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.31784E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.28036599999905 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9740E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.7 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.999997716164216E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 86087 TA= 1.72000E+02 CPU TIME= 8.11746E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 82.8092027777779 %check_save_state: izleft hours = 75.1172222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.720000E+02 NSTEP= 86087 Hash code: 22217661 ->PRGCHK: bdy curvature ratio at t= 1.7300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 172.000000 ; TG2= 173.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6200E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 172.000000 TO TG2= 173.000000 @ NSTEP 86087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.58058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.26174E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.34095E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.26174E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.34095E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.58058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.26174E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.34095E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.27651E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.26174E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.34095E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.30406E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.57205899999826 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9648E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 550.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 583.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 86587 TA= 1.73000E+02 CPU TIME= 7.48771E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 83.0223044444445 %check_save_state: izleft hours = 74.9041666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.730000E+02 NSTEP= 86587 Hash code: 112788088 ->PRGCHK: bdy curvature ratio at t= 1.7400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 173.000000 ; TG2= 174.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4860E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 173.000000 TO TG2= 174.000000 @ NSTEP 86587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.75506E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.19018E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.49563E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.19018E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.49563E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.37753E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 86938 TA= 1.73702E+02 CPU TIME= 7.82799E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.96528E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.15636E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.25788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -3.63669E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.15636E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.25787E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -3.41628E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.20793000000049 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9578E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 437.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 87087 TA= 1.74000E+02 CPU TIME= 7.82865E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 83.2546063888889 %check_save_state: izleft hours = 74.6719444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.740000E+02 NSTEP= 87087 Hash code: 17498142 ->PRGCHK: bdy curvature ratio at t= 1.7500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 174.000000 ; TG2= 175.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6430E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 174.000000 TO TG2= 175.000000 @ NSTEP 87087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.82853E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.74621E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.30100E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.40967E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.74621E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.30100E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.41886E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 87404 TA= 1.74634E+02 CPU TIME= 7.65211E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.91018E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 4.73247E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.41123E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.44641E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 4.73246E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.41122E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.48774E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.14370699999927 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9520E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 87587 TA= 1.75000E+02 CPU TIME= 7.81947E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 83.5335283333333 %check_save_state: izleft hours = 74.3930555555555 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.626E+03 MB. --> plasma_hash("gframe"): TA= 1.750000E+02 NSTEP= 87587 Hash code: 22422393 ->PRGCHK: bdy curvature ratio at t= 1.7600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 175.000000 ; TG2= 176.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5910E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 175.000000 TO TG2= 176.000000 @ NSTEP 87587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.18697E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.38393E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.49266E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.47855E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.38392E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.49266E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.47855E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 87916 TA= 1.75658E+02 CPU TIME= 7.66022E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.06630E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.26296E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 90= 1.76324E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.26296E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 90= 1.82753E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.834E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.10773300000074 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9473E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88087 TA= 1.76000E+02 CPU TIME= 7.89429E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 83.8180177777778 %check_save_state: izleft hours = 74.1086111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.592E+03 MB. --> plasma_hash("gframe"): TA= 1.760000E+02 NSTEP= 88087 Hash code: 85462449 ->PRGCHK: bdy curvature ratio at t= 1.7700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 176.000000 ; TG2= 177.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5830E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 176.000000 TO TG2= 177.000000 @ NSTEP 88087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.25815E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.32179E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.32178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.52447E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88423 TA= 1.76672E+02 CPU TIME= 7.70178E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 88= -1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.40176E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 96= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.40176E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 96= -1.30406E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.491E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.08580200000142 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9427E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.1 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.1 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.1 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.1 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88587 TA= 1.77000E+02 CPU TIME= 7.16643E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 84.1138250000000 %check_save_state: izleft hours = 73.8127777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.770000E+02 NSTEP= 88587 Hash code: 56666137 ->PRGCHK: bdy curvature ratio at t= 1.7800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 177.000000 ; TG2= 178.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2160E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 177.000000 TO TG2= 178.000000 @ NSTEP 88587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.31325E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.45871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.66222E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.45871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.67141E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88922 TA= 1.77670E+02 CPU TIME= 7.36585E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88934 TA= 1.77694E+02 CPU TIME= 7.21488E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88951 TA= 1.77728E+02 CPU TIME= 7.62984E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 88979 TA= 1.77784E+02 CPU TIME= 7.84169E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89014 TA= 1.77854E+02 CPU TIME= 7.84901E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 95= -3.80199E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.81254E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.29422E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.91018E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.81252E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.29421E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.89181E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.164E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.05407000000196 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9387E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89087 TA= 1.78000E+02 CPU TIME= 7.59509E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 84.3972577777778 %check_save_state: izleft hours = 73.5291666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.780000E+02 NSTEP= 89087 Hash code: 57607564 ->PRGCHK: bdy curvature ratio at t= 1.7900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 178.000000 ; TG2= 179.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6070E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 178.000000 TO TG2= 179.000000 @ NSTEP 89087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89293 TA= 1.78412E+02 CPU TIME= 7.16129E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89328 TA= 1.78482E+02 CPU TIME= 7.71098E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.60482E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.42587E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.60480E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.42587E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.36835E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89356 TA= 1.78538E+02 CPU TIME= 7.75022E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89402 TA= 1.78630E+02 CPU TIME= 7.68624E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89471 TA= 1.78768E+02 CPU TIME= 7.87177E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 96= -1.57957E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.70422E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.46259E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -2.36936E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.70422E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.46258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -2.44282E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.75616499999887 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9489E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89587 TA= 1.79000E+02 CPU TIME= 7.84320E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 84.6143586111112 %check_save_state: izleft hours = 73.3122222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.790000E+02 NSTEP= 89587 Hash code: 14510858 ->PRGCHK: bdy curvature ratio at t= 1.8000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 179.000000 ; TG2= 180.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 179.000000 TO TG2= 180.000000 @ NSTEP 89587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.75406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.59937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.35005E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.24896E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.59937E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.35005E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.21223E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89903 TA= 1.79632E+02 CPU TIME= 7.68666E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -2.23354E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 96= -1.23060E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.43012E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.47883E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 2= -1.43076E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.43012E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.47883E-38 RESET TO ZERO %MFRCHK - LABEL "BALN0_GF_T", # 14= 4.59005E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 2= -1.43076E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -1.59794E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.10956599999918 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9634E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 578.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 578.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 578.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.3 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90087 TA= 1.80000E+02 CPU TIME= 7.10154E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 84.8055355555557 %check_save_state: izleft hours = 73.1211111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.800000E+02 NSTEP= 90087 Hash code: 497948 ->PRGCHK: bdy curvature ratio at t= 1.8100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 180.000000 ; TG2= 181.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 180.000000 TO TG2= 181.000000 @ NSTEP 90087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 7= -1.71202E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 93= 1.81834E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.25086E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 61= 1.48818E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 8= -1.26711E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.05712E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.25086E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 61= 1.48818E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 8= -1.26711E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.07548E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90392 TA= 1.80610E+02 CPU TIME= 7.16050E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90447 TA= 1.80720E+02 CPU TIME= 7.14522E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90487 TA= 1.80800E+02 CPU TIME= 7.12766E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 3= 1.36841E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 94= -1.54284E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.37821E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 57= 1.24048E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 5= 1.33912E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.13058E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.37821E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 57= 1.24047E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 5= 1.33912E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.14895E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.44878099999914 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9779E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.8 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.8 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.8 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90587 TA= 1.81000E+02 CPU TIME= 7.11600E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.0079697222223 %check_save_state: izleft hours = 72.9186111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.597E+03 MB. --> plasma_hash("gframe"): TA= 1.810000E+02 NSTEP= 90587 Hash code: 43957042 ->PRGCHK: bdy curvature ratio at t= 1.8200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 181.000000 ; TG2= 182.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2600E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 181.000000 TO TG2= 182.000000 @ NSTEP 90587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90633 TA= 1.81092E+02 CPU TIME= 7.10886E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90683 TA= 1.81192E+02 CPU TIME= 7.10497E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90775 TA= 1.81376E+02 CPU TIME= 7.09861E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90807 TA= 1.81440E+02 CPU TIME= 7.15719E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90828 TA= 1.81482E+02 CPU TIME= 7.18282E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 8= 1.30622E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.87344E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 12= 1.32675E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 59= 1.57787E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 10= 1.31649E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.43263E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 12= 1.32675E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 59= 1.57787E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 10= 1.31649E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.46937E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90862 TA= 1.81550E+02 CPU TIME= 7.11036E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90915 TA= 1.81656E+02 CPU TIME= 7.14032E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90994 TA= 1.81814E+02 CPU TIME= 7.12535E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 8= 1.61853E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= 1.20304E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.44813E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.52943E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 10= 1.54837E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 96= -1.35917E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.44813E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.52942E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 10= 1.54836E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 96= -1.48774E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.45374900000024 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9861E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 91087 TA= 1.82000E+02 CPU TIME= 7.71247E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.2098277777779 %check_save_state: izleft hours = 72.7166666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.820000E+02 NSTEP= 91087 Hash code: 11268049 ->PRGCHK: bdy curvature ratio at t= 1.8300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 182.000000 ; TG2= 183.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9510E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 182.000000 TO TG2= 183.000000 @ NSTEP 91087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 91215 TA= 1.82256E+02 CPU TIME= 7.90698E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 7= -1.26915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 94= -3.63669E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.57533E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.49441E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 9= -1.61708E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 94= -1.82753E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.57533E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.49441E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 9= -1.61708E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 94= -1.80916E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 91402 TA= 1.82630E+02 CPU TIME= 7.77445E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -1.73723E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 91= 1.34998E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.40426E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.50307E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 5= -1.48249E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.40426E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.50307E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 5= -1.48249E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.54284E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.19243200000346 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9930E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.4 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.6 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 91587 TA= 1.83000E+02 CPU TIME= 7.72283E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.3885147222223 %check_save_state: izleft hours = 72.5380555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.830000E+02 NSTEP= 91587 Hash code: 31351542 ->PRGCHK: bdy curvature ratio at t= 1.8400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 183.000000 ; TG2= 184.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7840E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 183.000000 TO TG2= 184.000000 @ NSTEP 91587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 1= -3.59428E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.27293E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.18337E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.41121E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -1.79714E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.65304E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.18336E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.41121E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -1.79714E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.69896E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 91926 TA= 1.83678E+02 CPU TIME= 7.76801E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -1.45100E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.46818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.38440E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -5.05328E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -1.19386E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.46818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.38440E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -5.05327E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.23978E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.17533700000058 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9873E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.5 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 92087 TA= 1.84000E+02 CPU TIME= 8.07236E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.5734405555556 %check_save_state: izleft hours = 72.3530555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.368E+03 MB. --> plasma_hash("gframe"): TA= 1.840000E+02 NSTEP= 92087 Hash code: 33562426 ->PRGCHK: bdy curvature ratio at t= 1.8500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 184.000000 ; TG2= 185.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1930E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 184.000000 TO TG2= 185.000000 @ NSTEP 92087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.41527E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.23861E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.19486E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -7.71121E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.21223E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.23861E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.19486E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -7.71120E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.20304E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 92574 TA= 1.84974E+02 CPU TIME= 7.73433E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.59435E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.45405E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.50666E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.30406E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.45405E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.50666E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.29029E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 9.25756499999989 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9781E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 92587 TA= 1.85000E+02 CPU TIME= 8.21025E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.7628058333335 %check_save_state: izleft hours = 72.1636111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.464E+03 MB. --> plasma_hash("gframe"): TA= 1.850000E+02 NSTEP= 92587 Hash code: 118335999 ->PRGCHK: bdy curvature ratio at t= 1.8600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 185.000000 ; TG2= 186.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8290E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 185.000000 TO TG2= 186.000000 @ NSTEP 92587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.60813E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.50727E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.19203E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.50727E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.19203E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.60813E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.50727E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.19203E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.26733E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.50727E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.19203E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.34080E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.53454699999929 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9683E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.7 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.3 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 410.1 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.6 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.8 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 93087 TA= 1.86000E+02 CPU TIME= 7.20214E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 85.9687627777779 %check_save_state: izleft hours = 71.9577777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.768E+03 MB. --> plasma_hash("gframe"): TA= 1.860000E+02 NSTEP= 93087 Hash code: 64967190 ->PRGCHK: bdy curvature ratio at t= 1.8700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 186.000000 ; TG2= 187.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1130E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 186.000000 TO TG2= 187.000000 @ NSTEP 93087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.65864E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.37383E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.42572E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33621E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.37383E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.42571E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.65864E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 1.37383E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 49= 1.42572E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.33621E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 1.37383E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 49= 1.42571E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.32243E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.53984199999832 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9601E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 549.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.5 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 93587 TA= 1.87000E+02 CPU TIME= 7.20934E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 86.2132052777779 %check_save_state: izleft hours = 71.7133333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.870000E+02 NSTEP= 93587 Hash code: 81350200 ->PRGCHK: bdy curvature ratio at t= 1.8800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 187.000000 ; TG2= 188.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1300E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 187.000000 TO TG2= 188.000000 @ NSTEP 93587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.77802E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.87658E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.26446E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.38672E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.87658E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.26446E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.39131E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 93981 TA= 1.87788E+02 CPU TIME= 7.19268E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.08926E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 5.31911E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.38914E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 2.46119E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 5.31910E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.38914E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 2.45201E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.46795600000041 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9536E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.5 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.4 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.9 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94087 TA= 1.88000E+02 CPU TIME= 7.27889E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 86.4680327777778 %check_save_state: izleft hours = 71.4586111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.880000E+02 NSTEP= 94087 Hash code: 89056393 ->PRGCHK: bdy curvature ratio at t= 1.8900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 188.000000 ; TG2= 189.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1350E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 188.000000 TO TG2= 189.000000 @ NSTEP 94087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.97088E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 6.30590E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 48= 1.44568E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.48314E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 6.30589E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 48= 1.44568E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.48774E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94451 TA= 1.88728E+02 CPU TIME= 7.31143E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.80457E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.23166E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.32243E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.23166E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.52447E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 3.638E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.44487800000206 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9480E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.3 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.5 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.5 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.5 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.5 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.1 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94587 TA= 1.89000E+02 CPU TIME= 7.32198E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 86.7410475000001 %check_save_state: izleft hours = 71.1855555555556 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.890000E+02 NSTEP= 94587 Hash code: 29526420 ->PRGCHK: bdy curvature ratio at t= 1.9000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 189.000000 ; TG2= 190.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2350E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 189.000000 TO TG2= 190.000000 @ NSTEP 94587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.29488E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.26452E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.48774E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.26452E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.49233E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94942 TA= 1.89710E+02 CPU TIME= 7.33291E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 92= -1.65304E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.35979E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 94= 1.19386E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.35978E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 94= 1.23060E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.165E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.56160399999862 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9432E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.1 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.1 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.1 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.1 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999997377628461E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95087 TA= 1.90000E+02 CPU TIME= 7.32070E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 87.0228711111111 %check_save_state: izleft hours = 70.9036111111111 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9000000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.900000E+02 NSTEP= 95087 Hash code: 4693392 ->PRGCHK: bdy curvature ratio at t= 1.9100E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 190.000000 ; TG2= 191.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1240E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 190.000000 TO TG2= 191.000000 @ NSTEP 95087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.20304E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 47= 1.39775E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.52447E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 47= 1.39775E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.47396E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95432 TA= 1.90690E+02 CPU TIME= 7.31263E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 81= 1.35457E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.19204E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 2.93874E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.19204E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 91= 2.96629E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 4.847E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.52038500000344 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9390E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.3 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.1 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95587 TA= 1.91000E+02 CPU TIME= 7.32369E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 87.3145208333334 %check_save_state: izleft hours = 70.6119444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9100000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.469E+03 MB. --> plasma_hash("gframe"): TA= 1.910000E+02 NSTEP= 95587 Hash code: 36296888 ->PRGCHK: bdy curvature ratio at t= 1.9200E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 191.000000 ; TG2= 192.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1520E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 191.000000 TO TG2= 192.000000 @ NSTEP 95587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 85= 1.38212E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 46= 1.23218E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.63467E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 46= 1.23218E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.66222E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95936 TA= 1.91698E+02 CPU TIME= 7.26229E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95964 TA= 1.91754E+02 CPU TIME= 7.31872E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95970 TA= 1.91766E+02 CPU TIME= 7.31282E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95979 TA= 1.91784E+02 CPU TIME= 7.31103E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96001 TA= 1.91828E+02 CPU TIME= 7.39700E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96035 TA= 1.91896E+02 CPU TIME= 7.29584E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96078 TA= 1.91982E+02 CPU TIME= 7.24830E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 89= 1.94462E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 9.16555E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.41598E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= 1.34998E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 9.16552E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.41598E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= 1.30406E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 5.891E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.50133899999491 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9351E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.2 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 547.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.0 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.7 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.7 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.7 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.7 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 286.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.7 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.7 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.7 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96087 TA= 1.92000E+02 CPU TIME= 7.31781E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 87.5881766666668 %check_save_state: izleft hours = 70.3383333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9200000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.436E+03 MB. --> plasma_hash("gframe"): TA= 1.920000E+02 NSTEP= 96087 Hash code: 28310075 ->PRGCHK: bdy curvature ratio at t= 1.9300E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 192.000000 ; TG2= 193.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4260E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 192.000000 TO TG2= 193.000000 @ NSTEP 96087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96154 TA= 1.92134E+02 CPU TIME= 7.31160E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96322 TA= 1.92470E+02 CPU TIME= 7.29704E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 90= 1.77702E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.24827E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -2.79180E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.24827E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -2.72751E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96375 TA= 1.92576E+02 CPU TIME= 7.29089E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96407 TA= 1.92640E+02 CPU TIME= 7.30266E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96462 TA= 1.92750E+02 CPU TIME= 7.31450E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96550 TA= 1.92926E+02 CPU TIME= 7.30417E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "BALE0_SGF", # 93= -1.89181E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 1= 2.06981E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 58= 1.32744E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 97= -3.72852E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 1= 2.06981E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 58= 1.32744E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 97= -3.67342E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 !rfxqlo_profnt_write: minimum Ni_He4_fusn [cm^-3] toric input data is 1.747E-06 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.62011599999823 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9457E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.4 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.4 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.9 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %lossco: losscone repaired due to unexpected gaps in co pitch space. %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96587 TA= 1.93000E+02 CPU TIME= 7.27326E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 87.8041952777779 %check_save_state: izleft hours = 70.1222222222222 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9300000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.930000E+02 NSTEP= 96587 Hash code: 60746848 ->PRGCHK: bdy curvature ratio at t= 1.9400E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 193.000000 ; TG2= 194.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2240E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 193.000000 TO TG2= 194.000000 @ NSTEP 96587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96711 TA= 1.93248E+02 CPU TIME= 7.28598E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -1.39545E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 91= 1.44641E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 5= 1.19903E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.45524E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 3= -1.17804E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -1.39131E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 5= 1.19903E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.45523E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 3= -1.17804E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.36376E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96936 TA= 1.93698E+02 CPU TIME= 7.28491E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97054 TA= 1.93934E+02 CPU TIME= 7.24983E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 4.11777E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 93= -3.20506E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.35660E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 60= 1.27728E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 2.05889E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 93= -1.61630E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.35660E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 60= 1.27728E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 2.05888E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 93= -1.58875E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.54063900000619 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9601E+00 8.4474E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.7 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 543.7 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.8 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 543.7 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 543.7 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 406.5 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.6 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 577.6 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 577.6 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 577.6 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 432.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97087 TA= 1.94000E+02 CPU TIME= 7.29834E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 87.9871805555556 %check_save_state: izleft hours = 69.9394444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9400000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.597E+03 MB. --> plasma_hash("gframe"): TA= 1.940000E+02 NSTEP= 97087 Hash code: 111567311 ->PRGCHK: bdy curvature ratio at t= 1.9500E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 194.000000 ; TG2= 195.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1700E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 194.000000 TO TG2= 195.000000 @ NSTEP 97087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 1= 2.94107E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 93= 1.71273E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 10= 1.25033E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 61= 1.33856E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 1.47054E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.04793E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 10= 1.25033E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 61= 1.33856E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 1.47053E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.02956E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97358 TA= 1.94542E+02 CPU TIME= 7.28378E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97401 TA= 1.94628E+02 CPU TIME= 7.28338E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97427 TA= 1.94680E+02 CPU TIME= 7.28471E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97465 TA= 1.94756E+02 CPU TIME= 7.30792E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97544 TA= 1.94914E+02 CPU TIME= 7.25715E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 4.91164E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 95= -4.64688E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.21272E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.30458E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 2.45582E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.35099E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.21272E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.30458E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 2.45582E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.29589E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.54697000000306 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9772E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.2 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 544.2 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 271.0 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 544.2 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 544.2 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 407.6 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 433.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.0 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 433.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 579.0 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 288.2 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 579.0 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 579.0 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 433.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.000000677071512E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97587 TA= 1.95000E+02 CPU TIME= 7.29836E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 88.1825388888890 %check_save_state: izleft hours = 69.7438888888889 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9500000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.806E+03 MB. --> plasma_hash("gframe"): TA= 1.950000E+02 NSTEP= 97587 Hash code: 102906249 ->PRGCHK: bdy curvature ratio at t= 1.9600E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 195.000000 ; TG2= 196.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2280E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 195.000000 TO TG2= 196.000000 @ NSTEP 97587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97738 TA= 1.95302E+02 CPU TIME= 7.14059E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= 4.56712E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.64156E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.26316E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 55= 1.48662E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= 2.28356E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.20304E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.26316E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 55= 1.48662E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= 2.28356E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.21223E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97973 TA= 1.95772E+02 CPU TIME= 7.10742E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98004 TA= 1.95834E+02 CPU TIME= 7.11724E-01 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98056 TA= 1.95938E+02 CPU TIME= 7.14225E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 5= 1.52208E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 89= -1.57498E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 9= 1.43793E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 56= 1.35961E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 7= 1.49875E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 91= 1.62090E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 9= 1.43792E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 56= 1.35961E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 7= 1.49874E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 91= 1.68059E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.41919900000357 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9865E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.8 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 545.8 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 545.8 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 545.8 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 408.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 434.5 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.8 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 434.5 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 580.8 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.9 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 580.8 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 580.8 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 434.5 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98087 TA= 1.96000E+02 CPU TIME= 7.24284E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 88.3657127777778 %check_save_state: izleft hours = 69.5608333333333 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9600000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.469E+03 MB. --> plasma_hash("gframe"): TA= 1.960000E+02 NSTEP= 98087 Hash code: 34069093 ->PRGCHK: bdy curvature ratio at t= 1.9700E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 196.000000 ; TG2= 197.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1920E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 196.000000 TO TG2= 197.000000 @ NSTEP 98087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98294 TA= 1.96414E+02 CPU TIME= 7.61635E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -1.39201E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -1.79079E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 8= 1.40819E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 54= 1.26133E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 5= -1.29135E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.41427E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 8= 1.40818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 54= 1.26133E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 5= -1.29135E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.38672E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98419 TA= 1.96664E+02 CPU TIME= 7.57561E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -2.23792E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 91= -1.37753E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.27148E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 53= 1.25713E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 3= -1.21915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -2.07548E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.27148E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 53= 1.25712E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 3= -1.21915E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -2.13058E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.62324300000182 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9876E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.9 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 546.9 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.6 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 546.9 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 546.9 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.2 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 581.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.8 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 581.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 581.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 435.2 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98587 TA= 1.97000E+02 CPU TIME= 7.65831E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 88.5472758333335 %check_save_state: izleft hours = 69.3791666666667 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9700000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.372E+03 MB. --> plasma_hash("gframe"): TA= 1.970000E+02 NSTEP= 98587 Hash code: 9965736 ->PRGCHK: bdy curvature ratio at t= 1.9800E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 197.000000 ; TG2= 198.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3950E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 197.000000 TO TG2= 198.000000 @ NSTEP 98587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "PCXSGF", # 1= -3.91217E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.07089E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 7= 1.50735E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 52= 1.23512E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -1.95609E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.68059E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 7= 1.50734E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 52= 1.23512E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -1.95608E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.70355E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 98922 TA= 1.97670E+02 CPU TIME= 7.83023E-01 SECONDS. DT= 2.00000E-03 %MFRCHK - LABEL "PCXSGF", # 1= -9.26716E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 91= -1.23978E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.36815E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.22982E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -4.63358E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 95= -1.68977E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.36815E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.22982E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -4.63358E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 95= -1.74487E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.84547100000054 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9851E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 270.1 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.0 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.7 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.0 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.2 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.0 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.2 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.3 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.2 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.2 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.0 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 99087 TA= 1.98000E+02 CPU TIME= 7.25679E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 88.7321200000001 %check_save_state: izleft hours = 69.1944444444444 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9800000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.802E+03 MB. --> plasma_hash("gframe"): TA= 1.980000E+02 NSTEP= 99087 Hash code: 109348354 ->PRGCHK: bdy curvature ratio at t= 1.9900E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 198.000000 ; TG2= 199.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7770E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 198.000000 TO TG2= 199.000000 @ NSTEP 99087 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.12599E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.49626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.35122E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -6.70313E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.74487E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.49626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.35121E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -6.70312E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.71273E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.12599E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 6= 1.49626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 51= 1.35122E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_D", # 1= -6.70313E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 89= 1.74487E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 6= 1.49626E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 51= 1.35121E-38 RESET TO ZERO %MFRCHK - LABEL "PCXGF_T", # 1= -6.70312E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 89= 1.71273E-38 RESET TO ZERO fimain: call trmpi_group !rfxqlo_profnt_write: minimum Ni_He3_rfmi [cm^-3] toric input data is -7.359E-04 -- reset to 1.000E+04 %tr_rfprep: rfxqlo setup done, cpu(s) = 8.56199999999808 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 2.9774E+00 8.4473E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.4000E+07 Hz. D harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) T harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) Ne20_10 harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) *He3_min harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) T_MCfi harmonic 1 at R= 269.9 cm.B= 6.6905E+00 gauss( ) harmonic 2 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He3_MCf harmonic 1 at R= 548.6 cm.B= 3.3453E+00 gauss( ) He4_MCf harmonic 1 at R= 409.9 cm.B= 4.4603E+00 gauss( ) Antenna # 2 frequency = 3.2000E+07 Hz. D harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) T harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) Ne20_10 harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) *He3_min harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) T_MCfi harmonic 1 at R= 287.0 cm.B= 6.2970E+00 gauss( ) harmonic 2 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He3_MCf harmonic 1 at R= 582.4 cm.B= 3.1485E+00 gauss( ) He4_MCf harmonic 1 at R= 436.4 cm.B= 4.1980E+00 gauss( ) fpnharm: done. fimain: call trmpi_group before fpprf %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %entering fpsetup_lu: SuperLU radial transport operator setup. fp_prep_lu exit: 103 sparse matrices; max(rank) = 12756 %fpo_name1: reaction label bypassed: RT_HE3D %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 101 103 100 %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %fi_finish: enter %fimain: eflux cpu time = 3.000001015607268E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 99587 TA= 1.99000E+02 CPU TIME= 7.25102E-01 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 88.9088044444445 %check_save_state: izleft hours = 69.0177777777778 %wrstf: start call wrstf. %wrstf: open new restart file:00425I19RS.DAT %wrstf: open00425I19RS.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). %wrstf: write marker file. %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.9900000E+02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 2.806E+03 MB. --> plasma_hash("gframe"): TA= 1.990000E+02 NSTEP= 99587 Hash code: 24804992 ->PRGCHK: bdy curvature ratio at t= 2.0000E+02 seconds is: 1.3172E-01 % MHDEQ: TG1= 199.000000 ; TG2= 200.000000 ; DTG= 1.000E+00 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3460E-03 SECONDS DATA R*BT AT EDGE: 1.8062E+03 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3172E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 199.000000 TO TG2= 200.000000 @ NSTEP 99587 GFRAME TG2 MOMENTS CHECKSUM: 8.1809373763841D+04 %MFRCHK - LABEL "BALE0_SGF", # 87= -2.47956E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 4= 1.35818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.37642E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 4= 1.35818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.37642E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.25815E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 87= -2.47956E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFD", # 4= 1.35818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 50= 1.37642E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 87= -1.22141E-38 RESET TO ZERO %MFRCHK - LABEL "CFPCX_GFT", # 4= 1.35818E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFT", # 50= 1.37642E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_T", # 87= -1.25815E-38 RESET TO ZERO ual_close_pulse: [UALLowlevelException = Cannot find context -1 in store] tr_ids_eq_close: can not close IMAS output files 4.2 Call trmpi_end (NORMAL EXIT) trmpi_end2 -I- 0 Ended MPI for TRANSP 4.2 TERMINATE THE RUN (NORMAL EXIT) CPU TIME USED (hours): 8.87366E+01 %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 0 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 1 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 2 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 3 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 4 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 6 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 7 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 31 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 8 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 9 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 10 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 11 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 12 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 14 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 15 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 16 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 17 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 19 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 22 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 23 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 24 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 25 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 26 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 27 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 30 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 18 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 20 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 5 cwd: (mpi_share_env) process myid= 13 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 21 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 28 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 (mpi_share_env) process myid= 29 cwd: /local/tr_xzhang/transp_compute/ST40/00425I19 % nbi_alloc2_init: nbi_alloc2 done %variable not in state file: SVN3VII_H; ignore. % or levmod_halo.ne.2 %variable not in state file: SVN3VII_HE; ignore. % or levmod_halo.ne.2 %variable not in state file: SVN3VCX_H; ignore. % or levmod_halo.ne.2 %variable not in state file: SVN3VCX_HE; ignore. % or levmod_halo.ne.2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 148 ==> entering nubeam_step_child, mpi myidd = 0 % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done % nbi_alloc2_init: nbi_alloc2 done nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13365330.2485556 a. nbstart... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13365330.2485556 a. %note: constrained curt @ bdy to: 13365330.2485556 a. %note: constrained curt @ bdy to: 13365330.2485556 a. %note: constrained curt @ bdy to: 13365330.2485556 a. nbi_getprofiles ne*dvol sum (input): 6.9719E+22 %note: constrained curt @ bdy to: 13365330.2485556 a. nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13365330.2485556 a. %note: constrained curt @ bdy to: 13365330.2485556 a. nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbi_states: cpu 7 virtual memory size = 1.516E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.516E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.517E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.516E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.517E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.517E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.517E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.0087E+03 out of range %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %sigfacz (exc.states) erel= 7.0087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.2587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.5087E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 7.7587E+03 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0157E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0382E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0607E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) erel= 1.0832E+07 out of range min= 2.0000E+04 max= 1.0000E+07 ev/amu; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %sigfacz (exc.states) te= 6.5275E+02 out of range min= 1.0000E+03 max= 5.0000E+04 ev; fixup taken. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.541663833482042E+016 129322196423699. zfext1,zfext2= 1.387665208650033E+018 1.384462682104251E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.528731613839672E+016 1.293221964236989E+015 zfext1,zfext2= 1.386371986685796E+018 1.371530462461881E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.399409417415973E+016 1.293221964236989E+016 zfext1,zfext2= 1.373439767043426E+018 1.242208266038182E+017 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.106187453178984E+016 1.106187453178984E+016 zfext1,zfext2= 1.362377892511636E+018 1.131589520720284E+017 %xjaset -- root not found, trying standard fixup iteration= 4 **xjaset: .ge.3 iterations... zfmin,zfcorr= 5.319894793420186E+016 337688246255096. zfext1,zfext2= 2.723127416208371E+018 1.014050281152379E+018 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 5.286125968794676E+016 3.376882462550956E+015 zfext1,zfext2= 2.719750533745820E+018 1.010673398689828E+018 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.948437722539580E+016 3.376882462550956E+016 zfext1,zfext2= 2.685981709120311E+018 9.769045740643182E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 5347 - 0 (killed) + 11077 (dep) = 16424 ptcls. %depall specie #2 -> 2070 - 0 (killed) + 14016 (dep) = 16086 ptcls. %depall specie #3 -> 3798 - 0 (killed) + 12474 (dep) = 16272 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 8.632365E+07 8.621154E+07 %cxline - vtor.gt.vion; vtor,vion = 1.850935E+08 1.837328E+08 %cxline - vtor.gt.vion; vtor,vion = 1.483731E+08 1.478710E+08 %cxline - vtor.gt.vion; vtor,vion = 1.522284E+08 1.485440E+08 %cxline - vtor.gt.vion; vtor,vion = 1.453114E+08 1.450519E+08 %cxline - vtor.gt.vion; vtor,vion = 1.158202E+08 1.135315E+08 %cxline - vtor.gt.vion; vtor,vion = 1.166620E+08 1.135315E+08 %cxline - vtor.gt.vion; vtor,vion = 1.109411E+08 1.106869E+08 %cxline - vtor.gt.vion; vtor,vion = 3.810304E+08 3.759072E+08 %orball: in processor 0: orbit # iorb= 209 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.601691E+08 3.594448E+08 %cxline - vtor.gt.vion; vtor,vion = 1.393151E+08 1.389388E+08 %cxline - vtor.gt.vion; vtor,vion = 3.762198E+08 3.726531E+08 %cxline - vtor.gt.vion; vtor,vion = 2.553878E+08 2.537950E+08 %cxline - vtor.gt.vion; vtor,vion = 1.262179E+08 1.261928E+08 %cxline - vtor.gt.vion; vtor,vion = 1.219827E+08 1.188174E+08 %cxline - vtor.gt.vion; vtor,vion = 1.194859E+08 1.188174E+08 %cxline - vtor.gt.vion; vtor,vion = 5.442110E+08 5.421786E+08 %cxline - vtor.gt.vion; vtor,vion = 3.409445E+08 3.398837E+08 %cxline - vtor.gt.vion; vtor,vion = 5.961839E+07 5.422631E+07 %cxline - vtor.gt.vion; vtor,vion = 6.050742E+07 5.422631E+07 %cxline - vtor.gt.vion; vtor,vion = 3.240027E+08 3.231394E+08 %cxline - vtor.gt.vion; vtor,vion = 5.240843E+08 5.123472E+08 %cxline - vtor.gt.vion; vtor,vion = 3.071494E+08 3.042751E+08 %cxline - vtor.gt.vion; vtor,vion = 2.035900E+08 2.015500E+08 %cxline - vtor.gt.vion; vtor,vion = 2.516750E+08 2.516676E+08 %cxline - vtor.gt.vion; vtor,vion = 1.332227E+08 1.321747E+08 %cxline - vtor.gt.vion; vtor,vion = 1.093504E+08 1.090177E+08 %cxline - vtor.gt.vion; vtor,vion = 1.171473E+08 1.168648E+08 %cxline - vtor.gt.vion; vtor,vion = 3.149198E+08 3.143319E+08 %cxline - vtor.gt.vion; vtor,vion = 4.308920E+08 4.244429E+08 %cxline - vtor.gt.vion; vtor,vion = 1.849799E+08 1.847194E+08 %cxline - vtor.gt.vion; vtor,vion = 3.297619E+08 3.276606E+08 %cxline - vtor.gt.vion; vtor,vion = 2.413829E+08 2.369747E+08 %cxline - vtor.gt.vion; vtor,vion = 2.545516E+08 2.518790E+08 %orball: in processor 0: orbit # iorb= 1900 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 26 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 212 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orball: in processor 0: orbit # iorb= 41 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 75 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 87 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 195 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orball: in processor 0: orbit # iorb= 365 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 432 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orball: in processor 0: orbit # iorb= 1001 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0208E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 5 virtual memory size = 1.573E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.572E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.584E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 149 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13481416.8683958 a. %note: constrained curt @ bdy to: 13481416.8683958 a. %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... %note: constrained curt @ bdy to: 13481416.8683958 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.581E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.581E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.582E+03 MB. %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 5450 - 0 (killed) + 10528 (dep) = 15978 ptcls. %depall specie #2 -> 2014 - 0 (killed) + 13986 (dep) = 16000 ptcls. %depall specie #3 -> 3814 - 0 (killed) + 12186 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.873648E+08 1.855564E+08 %cxline - vtor.gt.vion; vtor,vion = 2.440162E+08 2.396486E+08 %cxline - vtor.gt.vion; vtor,vion = 4.387610E+08 4.372875E+08 %cxline - vtor.gt.vion; vtor,vion = 2.661342E+08 2.635778E+08 %cxline - vtor.gt.vion; vtor,vion = 7.272473E+07 6.938469E+07 %cxline - vtor.gt.vion; vtor,vion = 2.083267E+08 2.054045E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %cxline - vtor.gt.vion; vtor,vion = 1.030753E+08 1.016965E+08 %cxline - vtor.gt.vion; vtor,vion = 2.863211E+08 2.862109E+08 %cxline - vtor.gt.vion; vtor,vion = 2.864227E+08 2.862109E+08 %cxline - vtor.gt.vion; vtor,vion = 2.357966E+08 2.342723E+08 %cxline - vtor.gt.vion; vtor,vion = 2.248992E+08 2.243913E+08 %cxline - vtor.gt.vion; vtor,vion = 1.606000E+08 1.605261E+08 %cxline - vtor.gt.vion; vtor,vion = 3.652348E+08 3.645095E+08 %cxline - vtor.gt.vion; vtor,vion = 1.678832E+08 1.678632E+08 %cxline - vtor.gt.vion; vtor,vion = 3.290428E+08 3.248073E+08 %cxline - vtor.gt.vion; vtor,vion = 1.722975E+08 1.697816E+08 %cxline - vtor.gt.vion; vtor,vion = 4.671456E+07 4.563126E+07 %cxline - vtor.gt.vion; vtor,vion = 3.331470E+08 3.319613E+08 %cxline - vtor.gt.vion; vtor,vion = 5.591111E+07 5.548720E+07 %cxline - vtor.gt.vion; vtor,vion = 1.231669E+08 1.217023E+08 %cxline - vtor.gt.vion; vtor,vion = 1.228981E+08 1.188708E+08 %cxline - vtor.gt.vion; vtor,vion = 1.433866E+08 1.429523E+08 %cxline - vtor.gt.vion; vtor,vion = 1.800593E+08 1.771317E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599129E+08 1.595559E+08 %cxline - vtor.gt.vion; vtor,vion = 1.596165E+08 1.595559E+08 %cxline - vtor.gt.vion; vtor,vion = 2.189020E+08 2.151150E+08 %cxline - vtor.gt.vion; vtor,vion = 1.447077E+08 1.440949E+08 %cxline - vtor.gt.vion; vtor,vion = 2.187448E+08 2.163266E+08 %cxline - vtor.gt.vion; vtor,vion = 1.764711E+08 1.748742E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 46 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 54 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 163 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orball: in processor 0: orbit # iorb= 219 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orball: in processor 0: orbit # iorb= 326 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 405 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 nbfinish... entering outptb2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.604E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 150 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13767253.3329473 a. %note: constrained curt @ bdy to: 13767253.3329473 a. %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13767253.3329473 a. nbstart... %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4184 - 0 (killed) + 11816 (dep) = 16000 ptcls. %depall specie #2 -> 1441 - 0 (killed) + 14559 (dep) = 16000 ptcls. %depall specie #3 -> 2736 - 0 (killed) + 13264 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.057120E+08 1.031184E+08 %cxline - vtor.gt.vion; vtor,vion = 1.091505E+08 1.029205E+08 %cxline - vtor.gt.vion; vtor,vion = 1.080845E+08 1.029205E+08 %cxline - vtor.gt.vion; vtor,vion = 1.094458E+08 1.029205E+08 %cxline - vtor.gt.vion; vtor,vion = 1.089287E+08 1.029205E+08 %cxline - vtor.gt.vion; vtor,vion = 1.069944E+08 1.051901E+08 %cxline - vtor.gt.vion; vtor,vion = 1.997198E+08 1.993714E+08 %cxline - vtor.gt.vion; vtor,vion = 2.006924E+08 1.993714E+08 %cxline - vtor.gt.vion; vtor,vion = 1.946632E+08 1.922499E+08 %cxline - vtor.gt.vion; vtor,vion = 2.409127E+08 2.405397E+08 %cxline - vtor.gt.vion; vtor,vion = 8.678179E+07 8.535837E+07 %cxline - vtor.gt.vion; vtor,vion = 1.707551E+08 1.684953E+08 %cxline - vtor.gt.vion; vtor,vion = 2.718128E+08 2.663749E+08 %cxline - vtor.gt.vion; vtor,vion = 2.683268E+08 2.663749E+08 %cxline - vtor.gt.vion; vtor,vion = 2.668604E+08 2.658422E+08 %cxline - vtor.gt.vion; vtor,vion = 1.518752E+08 1.514030E+08 %cxline - vtor.gt.vion; vtor,vion = 3.967568E+07 3.941882E+07 %cxline - vtor.gt.vion; vtor,vion = 3.958075E+07 3.941882E+07 %orball: in processor 0: orbit # iorb= 462 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.140854E+08 2.133417E+08 %cxline - vtor.gt.vion; vtor,vion = 2.726156E+08 2.725797E+08 %cxline - vtor.gt.vion; vtor,vion = 2.209687E+08 2.202220E+08 %cxline - vtor.gt.vion; vtor,vion = 1.669759E+08 1.664653E+08 %cxline - vtor.gt.vion; vtor,vion = 1.630573E+08 1.628836E+08 %cxline - vtor.gt.vion; vtor,vion = 2.456667E+08 2.424064E+08 %cxline - vtor.gt.vion; vtor,vion = 9.085052E+07 8.747892E+07 %cxline - vtor.gt.vion; vtor,vion = 2.044578E+08 2.020329E+08 %cxline - vtor.gt.vion; vtor,vion = 2.489609E+08 2.481144E+08 %cxline - vtor.gt.vion; vtor,vion = 2.240999E+08 2.239796E+08 %cxline - vtor.gt.vion; vtor,vion = 2.453366E+08 2.429277E+08 %cxline - vtor.gt.vion; vtor,vion = 2.458655E+08 2.429277E+08 %cxline - vtor.gt.vion; vtor,vion = 2.542772E+08 2.532746E+08 %cxline - vtor.gt.vion; vtor,vion = 2.541495E+08 2.532746E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 151 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... %note: constrained curt @ bdy to: 13808869.5261913 a. %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... %note: constrained curt @ bdy to: 13808869.5261913 a. %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13808869.5261913 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4288 - 0 (killed) + 11712 (dep) = 16000 ptcls. %depall specie #2 -> 1329 - 0 (killed) + 14671 (dep) = 16000 ptcls. %depall specie #3 -> 2515 - 0 (killed) + 13485 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %cxline - vtor.gt.vion; vtor,vion = 8.274792E+07 8.264522E+07 %cxline - vtor.gt.vion; vtor,vion = 3.146525E+08 3.072098E+08 %cxline - vtor.gt.vion; vtor,vion = 9.280160E+07 8.874714E+07 %cxline - vtor.gt.vion; vtor,vion = 9.233532E+07 8.874714E+07 %cxline - vtor.gt.vion; vtor,vion = 7.747820E+07 7.741122E+07 %cxline - vtor.gt.vion; vtor,vion = 8.218637E+07 7.888652E+07 %cxline - vtor.gt.vion; vtor,vion = 2.041805E+08 2.033870E+08 %cxline - vtor.gt.vion; vtor,vion = 5.094905E+07 4.970887E+07 %cxline - vtor.gt.vion; vtor,vion = 5.197858E+07 4.970887E+07 %cxline - vtor.gt.vion; vtor,vion = 1.486289E+08 1.477318E+08 %cxline - vtor.gt.vion; vtor,vion = 3.204351E+08 3.197706E+08 %cxline - vtor.gt.vion; vtor,vion = 9.606378E+07 8.999336E+07 %cxline - vtor.gt.vion; vtor,vion = 9.588059E+07 8.999336E+07 %cxline - vtor.gt.vion; vtor,vion = 8.911448E+07 8.895712E+07 %cxline - vtor.gt.vion; vtor,vion = 9.973505E+07 9.051302E+07 %cxline - vtor.gt.vion; vtor,vion = 1.000198E+08 9.051302E+07 %cxline - vtor.gt.vion; vtor,vion = 8.261649E+07 7.853768E+07 %cxline - vtor.gt.vion; vtor,vion = 2.131221E+08 2.118972E+08 %cxline - vtor.gt.vion; vtor,vion = 2.425357E+08 2.419125E+08 %cxline - vtor.gt.vion; vtor,vion = 1.267907E+08 1.259145E+08 %cxline - vtor.gt.vion; vtor,vion = 2.136290E+08 2.118019E+08 %cxline - vtor.gt.vion; vtor,vion = 1.755617E+08 1.741116E+08 %cxline - vtor.gt.vion; vtor,vion = 2.106706E+08 2.103739E+08 %cxline - vtor.gt.vion; vtor,vion = 1.622850E+08 1.607484E+08 %cxline - vtor.gt.vion; vtor,vion = 1.615369E+08 1.607484E+08 %cxline - vtor.gt.vion; vtor,vion = 1.119159E+08 1.093116E+08 %cxline - vtor.gt.vion; vtor,vion = 1.153813E+08 1.147456E+08 %cxline - vtor.gt.vion; vtor,vion = 1.165278E+08 1.147456E+08 %cxline - vtor.gt.vion; vtor,vion = 6.579092E+07 6.530015E+07 %cxline - vtor.gt.vion; vtor,vion = 2.841361E+08 2.825866E+08 %cxline - vtor.gt.vion; vtor,vion = 1.062960E+08 9.985195E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 193 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orball: in processor 0: orbit # iorb= 196 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 266 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orball: in processor 0: orbit # iorb= 310 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 152 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... %note: constrained curt @ bdy to: 13811829.4872762 a. %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... %note: constrained curt @ bdy to: 13811829.4872762 a. %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... %note: constrained curt @ bdy to: 13811829.4872762 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3523 - 0 (killed) + 12785 (dep) = 16308 ptcls. %depall specie #2 -> 1062 - 0 (killed) + 15086 (dep) = 16148 ptcls. %depall specie #3 -> 2079 - 0 (killed) + 14130 (dep) = 16209 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.162728E+08 1.123803E+08 %cxline - vtor.gt.vion; vtor,vion = 2.591829E+08 2.591124E+08 %cxline - vtor.gt.vion; vtor,vion = 2.428789E+08 2.405568E+08 %cxline - vtor.gt.vion; vtor,vion = 2.193653E+08 2.176386E+08 %cxline - vtor.gt.vion; vtor,vion = 2.364956E+08 2.361981E+08 %cxline - vtor.gt.vion; vtor,vion = 1.317918E+08 1.302552E+08 %cxline - vtor.gt.vion; vtor,vion = 1.253596E+08 1.246674E+08 %cxline - vtor.gt.vion; vtor,vion = 1.270873E+08 1.246674E+08 %cxline - vtor.gt.vion; vtor,vion = 1.329997E+08 1.237393E+08 %cxline - vtor.gt.vion; vtor,vion = 1.321150E+08 1.237393E+08 %cxline - vtor.gt.vion; vtor,vion = 1.123984E+08 1.122013E+08 %cxline - vtor.gt.vion; vtor,vion = 1.131606E+08 1.130549E+08 %cxline - vtor.gt.vion; vtor,vion = 1.966296E+08 1.931916E+08 %cxline - vtor.gt.vion; vtor,vion = 4.027629E+08 3.976499E+08 %cxline - vtor.gt.vion; vtor,vion = 2.445565E+08 2.445544E+08 %orball: in processor 0: orbit # iorb= 714 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.212436E+08 6.208409E+08 %cxline - vtor.gt.vion; vtor,vion = 1.542606E+08 1.542195E+08 %cxline - vtor.gt.vion; vtor,vion = 1.943930E+08 1.901487E+08 %cxline - vtor.gt.vion; vtor,vion = 3.323548E+08 3.294915E+08 %cxline - vtor.gt.vion; vtor,vion = 3.309698E+08 3.294915E+08 %cxline - vtor.gt.vion; vtor,vion = 3.958564E+08 3.941884E+08 %cxline - vtor.gt.vion; vtor,vion = 5.735937E+08 5.714476E+08 %cxline - vtor.gt.vion; vtor,vion = 2.397103E+08 2.391987E+08 %cxline - vtor.gt.vion; vtor,vion = 1.474638E+08 1.472787E+08 %cxline - vtor.gt.vion; vtor,vion = 9.564262E+07 9.546049E+07 %cxline - vtor.gt.vion; vtor,vion = 8.260825E+07 8.260116E+07 %cxline - vtor.gt.vion; vtor,vion = 1.013880E+08 9.800623E+07 %cxline - vtor.gt.vion; vtor,vion = 4.618434E+08 4.617733E+08 %cxline - vtor.gt.vion; vtor,vion = 1.551005E+08 1.541221E+08 %cxline - vtor.gt.vion; vtor,vion = 7.252835E+07 7.244126E+07 %cxline - vtor.gt.vion; vtor,vion = 5.422018E+08 5.419868E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orball: in processor 0: orbit # iorb= 63 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orball: in processor 0: orbit # iorb= 46 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 1413 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 153 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13544569.7452585 a. %note: constrained curt @ bdy to: 13544569.7452585 a. %note: constrained curt @ bdy to: 13544569.7452585 a. nbstart... %note: constrained curt @ bdy to: 13544569.7452585 a. %note: constrained curt @ bdy to: 13544569.7452585 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13544569.7452585 a. nbstart... %note: constrained curt @ bdy to: 13544569.7452585 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13544569.7452585 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.116042623745664E+016 337688246255096. zfext1,zfext2= 2.687419848261699E+018 2.700832496610168E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.082273799120154E+016 3.376882462550956E+015 zfext1,zfext2= 2.684042965799148E+018 2.667063671984659E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.744585552865059E+016 2.744585552865059E+016 zfext1,zfext2= 2.656597110270497E+018 2.392605116698153E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 2968 - 0 (killed) + 13594 (dep) = 16562 ptcls. %depall specie #2 -> 1141 - 0 (killed) + 15131 (dep) = 16272 ptcls. %depall specie #3 -> 1723 - 0 (killed) + 14712 (dep) = 16435 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.441268E+08 1.438000E+08 %cxline - vtor.gt.vion; vtor,vion = 5.393627E+08 5.366427E+08 %cxline - vtor.gt.vion; vtor,vion = 1.252748E+08 1.211281E+08 %cxline - vtor.gt.vion; vtor,vion = 1.513781E+08 1.469322E+08 %cxline - vtor.gt.vion; vtor,vion = 1.502595E+08 1.469322E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 157 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.186367E+08 3.174385E+08 %cxline - vtor.gt.vion; vtor,vion = 3.190514E+08 3.142093E+08 %cxline - vtor.gt.vion; vtor,vion = 1.830404E+08 1.788962E+08 %orball: in processor 0: orbit # iorb= 775 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 9.372825E+07 9.207243E+07 %cxline - vtor.gt.vion; vtor,vion = 2.933663E+08 2.852415E+08 %cxline - vtor.gt.vion; vtor,vion = 2.743766E+08 2.727964E+08 %cxline - vtor.gt.vion; vtor,vion = 2.312978E+08 2.289985E+08 %cxline - vtor.gt.vion; vtor,vion = 2.076934E+08 2.046068E+08 %cxline - vtor.gt.vion; vtor,vion = 2.015696E+08 2.012826E+08 %cxline - vtor.gt.vion; vtor,vion = 1.998950E+08 1.994933E+08 %cxline - vtor.gt.vion; vtor,vion = 1.940751E+08 1.939346E+08 %cxline - vtor.gt.vion; vtor,vion = 3.842773E+08 3.821710E+08 %orball: in processor 0: orbit # iorb= 1240 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.233758E+08 1.194771E+08 %cxline - vtor.gt.vion; vtor,vion = 6.429032E+07 6.203747E+07 %cxline - vtor.gt.vion; vtor,vion = 6.550195E+07 6.203747E+07 %cxline - vtor.gt.vion; vtor,vion = 1.979478E+08 1.969119E+08 %cxline - vtor.gt.vion; vtor,vion = 2.413618E+08 2.412454E+08 %cxline - vtor.gt.vion; vtor,vion = 3.120041E+08 3.083592E+08 %cxline - vtor.gt.vion; vtor,vion = 3.269906E+08 3.269194E+08 %cxline - vtor.gt.vion; vtor,vion = 4.593261E+08 4.587505E+08 %orball: in processor 0: orbit # iorb= 1991 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.327379E+08 6.299982E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orball: in processor 0: orbit # iorb= 135 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0172E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orball: in processor 0: orbit # iorb= 24 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 179 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orball: in processor 0: orbit # iorb= 1637 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 154 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13505143.9634163 a. %note: constrained curt @ bdy to: 13505143.9634163 a. nbstart... %note: constrained curt @ bdy to: 13505143.9634163 a. %note: constrained curt @ bdy to: 13505143.9634163 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13505143.9634163 a. %note: constrained curt @ bdy to: 13505143.9634163 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13505143.9634163 a. nbstart... %note: constrained curt @ bdy to: 13505143.9634163 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 6.411461008707072E+015 129322196423699. zfext1,zfext2= 1.033878619963826E+018 1.330503569163307E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 6.282138812283373E+015 1.293221964236989E+015 zfext1,zfext2= 1.032585397999590E+018 1.317571349520937E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.988916848046384E+015 4.988916848046384E+015 zfext1,zfext2= 1.027596481151543E+018 1.267682181040474E+017 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.662461171452928E+015 129322196423699. zfext1,zfext2= 1.002391270652595E+018 1.028023259225463E+017 %xjaset -- root not found, trying standard fixup iteration= 1 %depall specie #1 -> 2949 - 0 (killed) + 13807 (dep) = 16756 ptcls. %depall specie #2 -> 1149 - 0 (killed) + 15161 (dep) = 16310 ptcls. %depall specie #3 -> 1736 - 0 (killed) + 14804 (dep) = 16540 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 depall exited 0 orball... orball... depall exited 0 orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %cxline - vtor.gt.vion; vtor,vion = 1.873094E+08 1.809787E+08 %cxline - vtor.gt.vion; vtor,vion = 1.878364E+08 1.809787E+08 %cxline - vtor.gt.vion; vtor,vion = 4.493109E+08 4.411001E+08 %cxline - vtor.gt.vion; vtor,vion = 1.549023E+08 1.531837E+08 %cxline - vtor.gt.vion; vtor,vion = 2.588635E+08 2.585052E+08 %cxline - vtor.gt.vion; vtor,vion = 2.407656E+08 2.388200E+08 %orball: in processor 0: orbit # iorb= 518 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 8.196374E+08 8.041061E+08 %cxline - vtor.gt.vion; vtor,vion = 3.021986E+08 3.015342E+08 %cxline - vtor.gt.vion; vtor,vion = 2.918495E+08 2.916585E+08 %cxline - vtor.gt.vion; vtor,vion = 1.565399E+08 1.517821E+08 %cxline - vtor.gt.vion; vtor,vion = 6.076722E+08 6.032999E+08 %orball: in processor 0: orbit # iorb= 850 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.485620E+08 5.466134E+08 %cxline - vtor.gt.vion; vtor,vion = 5.600691E+08 5.565500E+08 %cxline - vtor.gt.vion; vtor,vion = 5.645022E+08 5.565500E+08 %cxline - vtor.gt.vion; vtor,vion = 2.913151E+08 2.853258E+08 %cxline - vtor.gt.vion; vtor,vion = 5.196487E+07 4.868783E+07 %cxline - vtor.gt.vion; vtor,vion = 5.230769E+07 4.868783E+07 %cxline - vtor.gt.vion; vtor,vion = 4.594464E+08 4.577739E+08 %cxline - vtor.gt.vion; vtor,vion = 5.786615E+08 5.751760E+08 %cxline - vtor.gt.vion; vtor,vion = 4.076875E+08 4.075953E+08 %cxline - vtor.gt.vion; vtor,vion = 4.047988E+08 4.040096E+08 %cxline - vtor.gt.vion; vtor,vion = 2.383152E+08 2.380212E+08 %cxline - vtor.gt.vion; vtor,vion = 1.633307E+08 1.628139E+08 %cxline - vtor.gt.vion; vtor,vion = 2.492840E+08 2.482316E+08 %cxline - vtor.gt.vion; vtor,vion = 2.034317E+08 2.032500E+08 %cxline - vtor.gt.vion; vtor,vion = 2.034229E+08 2.032500E+08 %cxline - vtor.gt.vion; vtor,vion = 1.124067E+08 1.094290E+08 %cxline - vtor.gt.vion; vtor,vion = 6.461744E+08 6.442849E+08 %cxline - vtor.gt.vion; vtor,vion = 2.376590E+08 2.371179E+08 %cxline - vtor.gt.vion; vtor,vion = 2.733574E+08 2.729138E+08 %cxline - vtor.gt.vion; vtor,vion = 5.257115E+08 5.223357E+08 %cxline - vtor.gt.vion; vtor,vion = 1.887764E+08 1.883115E+08 %cxline - vtor.gt.vion; vtor,vion = 3.071918E+08 3.061530E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 79 never inside plasma. %orball: in processor 0: orbit # iorb= 84 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 155 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13452766.4389397 a. %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %note: constrained curt @ bdy to: 13452766.4389397 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 8.399297050291296E+015 129322196423699. zfext1,zfext2= 1.900290697624613E+018 1.868433456113803E+016 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 8.269974853867597E+015 1.293221964236989E+015 zfext1,zfext2= 1.898997475660376E+018 1.739111259690104E+016 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 6.976752889630608E+015 6.976752889630608E+015 zfext1,zfext2= 1.892020722770745E+018 1.041435970727043E+016 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.189842184351130E+016 129322196423699. zfext1,zfext2= 1.507984309199985E+018 7.938984624935845E+016 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.524287807758426E+016 129322196423699. zfext1,zfext2= 2.297255507395447E+018 1.297097972647838E+016 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.511355588116056E+016 1.293221964236989E+015 zfext1,zfext2= 2.295962285431210E+018 1.167775776224139E+016 %depall specie #1 -> 3028 - 0 (killed) + 13653 (dep) = 16681 ptcls. %depall specie #2 -> 1315 - 0 (killed) + 14985 (dep) = 16300 ptcls. %depall specie #3 -> 1931 - 0 (killed) + 14574 (dep) = 16505 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.507557E+08 1.503995E+08 %cxline - vtor.gt.vion; vtor,vion = 2.010717E+08 1.964897E+08 %cxline - vtor.gt.vion; vtor,vion = 2.026854E+08 1.967683E+08 %orball: in processor 0: orbit # iorb= 104 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.458591E+08 3.415886E+08 %cxline - vtor.gt.vion; vtor,vion = 2.230475E+08 2.223881E+08 %cxline - vtor.gt.vion; vtor,vion = 7.731811E+07 7.617944E+07 %cxline - vtor.gt.vion; vtor,vion = 1.323419E+08 1.320930E+08 %cxline - vtor.gt.vion; vtor,vion = 1.813293E+08 1.806132E+08 %cxline - vtor.gt.vion; vtor,vion = 2.867560E+08 2.824606E+08 %cxline - vtor.gt.vion; vtor,vion = 1.140341E+08 1.124554E+08 %cxline - vtor.gt.vion; vtor,vion = 5.983637E+08 5.958693E+08 %cxline - vtor.gt.vion; vtor,vion = 4.463882E+08 4.433413E+08 %cxline - vtor.gt.vion; vtor,vion = 1.015084E+08 1.001893E+08 %cxline - vtor.gt.vion; vtor,vion = 1.038784E+08 1.001893E+08 %cxline - vtor.gt.vion; vtor,vion = 1.054759E+08 1.002749E+08 %cxline - vtor.gt.vion; vtor,vion = 1.042724E+08 1.002749E+08 %cxline - vtor.gt.vion; vtor,vion = 9.994855E+07 9.625712E+07 %cxline - vtor.gt.vion; vtor,vion = 9.997092E+07 9.625712E+07 %orball: in processor 0: orbit # iorb= 1258 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.196435E+08 1.174295E+08 %cxline - vtor.gt.vion; vtor,vion = 1.527789E+08 1.508870E+08 %cxline - vtor.gt.vion; vtor,vion = 3.910513E+08 3.851966E+08 %cxline - vtor.gt.vion; vtor,vion = 1.867883E+08 1.826991E+08 %cxline - vtor.gt.vion; vtor,vion = 1.882922E+08 1.826991E+08 %cxline - vtor.gt.vion; vtor,vion = 2.291634E+08 2.286178E+08 %cxline - vtor.gt.vion; vtor,vion = 3.845200E+08 3.842222E+08 %cxline - vtor.gt.vion; vtor,vion = 2.374170E+08 2.351749E+08 %cxline - vtor.gt.vion; vtor,vion = 1.630449E+08 1.575818E+08 %cxline - vtor.gt.vion; vtor,vion = 1.631885E+08 1.575818E+08 %cxline - vtor.gt.vion; vtor,vion = 1.600844E+08 1.576118E+08 %cxline - vtor.gt.vion; vtor,vion = 1.576828E+08 1.576118E+08 %orball: in processor 0: orbit # iorb= 1708 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.554127E+08 5.540555E+08 %cxline - vtor.gt.vion; vtor,vion = 2.731607E+08 2.692374E+08 %cxline - vtor.gt.vion; vtor,vion = 1.100275E+08 1.098856E+08 %cxline - vtor.gt.vion; vtor,vion = 2.969330E+08 2.956244E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 8 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orball: in processor 0: orbit # iorb= 67 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0174E+00 %orball: in processor 0: orbit # iorb= 1090 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0197E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orball: in processor 0: orbit # iorb= 102 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orball: in processor 0: orbit # iorb= 158 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orball: in processor 0: orbit # iorb= 227 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orball: in processor 0: orbit # iorb= 238 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 156 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13421493.2521515 a. %note: constrained curt @ bdy to: 13421493.2521515 a. %note: constrained curt @ bdy to: 13421493.2521515 a. %note: constrained curt @ bdy to: 13421493.2521515 a. nbstart... %note: constrained curt @ bdy to: 13421493.2521515 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13421493.2521515 a. nbstart... %note: constrained curt @ bdy to: 13421493.2521515 a. nbstart... %note: constrained curt @ bdy to: 13421493.2521515 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.703346366334534E+016 129322196423699. zfext1,zfext2= 1.320470681206683E+018 1.622761043845868E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.690414146692164E+016 1.293221964236989E+015 zfext1,zfext2= 1.319177459242446E+018 1.609828824203499E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.561091950268466E+016 1.293221964236989E+016 zfext1,zfext2= 1.306245239600076E+018 1.480506627779800E+017 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.267869986031477E+016 1.267869986031477E+016 zfext1,zfext2= 1.293566539739761E+018 1.353719629176652E+017 %xjaset -- root not found, trying standard fixup iteration= 4 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.479554966266893E+016 129322196423699. zfext1,zfext2= 1.157099902339647E+018 2.004952987625294E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.466622746624523E+016 1.293221964236989E+015 zfext1,zfext2= 1.155806680375410E+018 1.992020767982924E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 1.337300550200824E+016 1.293221964236989E+016 zfext1,zfext2= 1.142874460733041E+018 1.862698571559225E+017 %xjaset -- root not found, trying standard fixup iteration= 3 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.620898500995098E+016 337688246255096. zfext1,zfext2= 2.882116511751388E+018 6.806687797496942E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 4.587129676369588E+016 3.376882462550956E+015 zfext1,zfext2= 2.878739629288837E+018 6.772918972871433E+017 **xjaset: .ge.3 iterations... zfmin,zfcorr= 5.459949586717542E+016 337688246255096. zfext1,zfext2= 2.723440659120036E+018 9.355286621977715E+017 **xjaset: .ge.3 iterations... zfmin,zfcorr= 5.849905014602573E+016 337688246255096. zfext1,zfext2= 3.684794631009130E+018 3.897409591287857E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 5.816136189977063E+016 3.376882462550956E+015 zfext1,zfext2= 3.681417748546579E+018 3.863640766662347E+017 %depall specie #1 -> 3083 - 0 (killed) + 13441 (dep) = 16524 ptcls. %depall specie #2 -> 1344 - 0 (killed) + 14878 (dep) = 16222 ptcls. %depall specie #3 -> 2120 - 0 (killed) + 14290 (dep) = 16410 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.999815E+08 3.990731E+08 %cxline - vtor.gt.vion; vtor,vion = 2.030086E+08 2.026895E+08 %cxline - vtor.gt.vion; vtor,vion = 1.421029E+08 1.418964E+08 %cxline - vtor.gt.vion; vtor,vion = 1.422287E+08 1.418964E+08 %cxline - vtor.gt.vion; vtor,vion = 1.443505E+08 1.438902E+08 %cxline - vtor.gt.vion; vtor,vion = 1.254742E+08 1.252270E+08 %cxline - vtor.gt.vion; vtor,vion = 1.929057E+08 1.915853E+08 %cxline - vtor.gt.vion; vtor,vion = 1.829504E+08 1.827601E+08 %cxline - vtor.gt.vion; vtor,vion = 1.646960E+08 1.644306E+08 %cxline - vtor.gt.vion; vtor,vion = 1.634507E+08 1.627360E+08 %cxline - vtor.gt.vion; vtor,vion = 5.410020E+08 5.375466E+08 %cxline - vtor.gt.vion; vtor,vion = 1.098516E+08 1.018280E+08 %cxline - vtor.gt.vion; vtor,vion = 1.095352E+08 1.018280E+08 %cxline - vtor.gt.vion; vtor,vion = 1.837114E+08 1.828930E+08 %cxline - vtor.gt.vion; vtor,vion = 4.449020E+08 4.431008E+08 %cxline - vtor.gt.vion; vtor,vion = 2.134537E+08 2.130916E+08 %cxline - vtor.gt.vion; vtor,vion = 3.744891E+08 3.720133E+08 %cxline - vtor.gt.vion; vtor,vion = 3.039562E+08 3.038771E+08 %orball: in processor 0: orbit # iorb= 1406 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.613520E+08 3.608708E+08 %cxline - vtor.gt.vion; vtor,vion = 3.632946E+08 3.623284E+08 %cxline - vtor.gt.vion; vtor,vion = 1.601298E+08 1.590992E+08 %cxline - vtor.gt.vion; vtor,vion = 5.774619E+08 5.766093E+08 %cxline - vtor.gt.vion; vtor,vion = 1.565860E+08 1.563001E+08 %cxline - vtor.gt.vion; vtor,vion = 4.090565E+08 4.086565E+08 %cxline - vtor.gt.vion; vtor,vion = 4.050250E+08 4.048701E+08 %cxline - vtor.gt.vion; vtor,vion = 4.055017E+08 4.048701E+08 %cxline - vtor.gt.vion; vtor,vion = 5.698300E+08 5.680945E+08 %cxline - vtor.gt.vion; vtor,vion = 5.737170E+08 5.680945E+08 %cxline - vtor.gt.vion; vtor,vion = 4.328496E+08 4.318374E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orball: in processor 0: orbit # iorb= 22 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0300E+00 %orball: in processor 0: orbit # iorb= 26 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 65 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 109 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orball: in processor 0: orbit # iorb= 155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orball: in processor 0: orbit # iorb= 67 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orball: in processor 0: orbit # iorb= 113 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 134 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.826443100245862E+016 163556895001428. zfext1,zfext2= 1.289844377206476E+018 6.497624098719369E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.810087410745720E+016 1.635568950014281E+015 zfext1,zfext2= 1.288208808256462E+018 6.481268409219226E+017 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 157 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13400298.9268798 a. %note: constrained curt @ bdy to: 13400298.9268798 a. %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13400298.9268798 a. nbstart... %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.433885203134003E+016 337688246255096. zfext1,zfext2= 3.396379090348523E+018 3.887627994039212E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.400116378508494E+016 3.376882462550956E+015 zfext1,zfext2= 3.393002207885972E+018 3.853859169413702E+017 %xjaset -- root not found, trying standard fixup iteration= 2 **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.062428132253398E+016 2.062428132253398E+016 zfext1,zfext2= 3.372377926563438E+018 3.647616356188362E+017 %xjaset -- root not found, trying standard fixup iteration= 3 %depall specie #1 -> 3170 - 0 (killed) + 13257 (dep) = 16427 ptcls. %depall specie #2 -> 1459 - 0 (killed) + 14735 (dep) = 16194 ptcls. %depall specie #3 -> 2080 - 0 (killed) + 14214 (dep) = 16294 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 3.036877E+08 3.022710E+08 %cxline - vtor.gt.vion; vtor,vion = 2.298889E+08 2.292215E+08 %cxline - vtor.gt.vion; vtor,vion = 2.314152E+08 2.292215E+08 %cxline - vtor.gt.vion; vtor,vion = 4.158378E+08 4.128359E+08 %cxline - vtor.gt.vion; vtor,vion = 2.073675E+08 2.058662E+08 %cxline - vtor.gt.vion; vtor,vion = 1.999222E+08 1.983159E+08 %cxline - vtor.gt.vion; vtor,vion = 1.989769E+08 1.987997E+08 %cxline - vtor.gt.vion; vtor,vion = 1.620136E+08 1.593868E+08 %cxline - vtor.gt.vion; vtor,vion = 2.029548E+08 2.019517E+08 %cxline - vtor.gt.vion; vtor,vion = 2.428852E+08 2.427069E+08 %cxline - vtor.gt.vion; vtor,vion = 2.866584E+08 2.803817E+08 %cxline - vtor.gt.vion; vtor,vion = 1.953630E+08 1.936331E+08 %cxline - vtor.gt.vion; vtor,vion = 2.944700E+08 2.857600E+08 %cxline - vtor.gt.vion; vtor,vion = 2.449744E+08 2.387671E+08 %cxline - vtor.gt.vion; vtor,vion = 2.447550E+08 2.387671E+08 %cxline - vtor.gt.vion; vtor,vion = 1.576387E+08 1.569911E+08 %cxline - vtor.gt.vion; vtor,vion = 1.009494E+08 9.985491E+07 %cxline - vtor.gt.vion; vtor,vion = 1.016626E+08 9.985491E+07 %cxline - vtor.gt.vion; vtor,vion = 1.159852E+08 1.158392E+08 %cxline - vtor.gt.vion; vtor,vion = 1.138366E+08 1.133853E+08 %cxline - vtor.gt.vion; vtor,vion = 2.350133E+08 2.340879E+08 %cxline - vtor.gt.vion; vtor,vion = 5.391945E+08 5.342867E+08 %cxline - vtor.gt.vion; vtor,vion = 5.769954E+08 5.695028E+08 %cxline - vtor.gt.vion; vtor,vion = 1.851548E+08 1.848408E+08 %cxline - vtor.gt.vion; vtor,vion = 4.024881E+08 4.024323E+08 %cxline - vtor.gt.vion; vtor,vion = 3.195945E+08 3.117261E+08 %cxline - vtor.gt.vion; vtor,vion = 1.500673E+08 1.499481E+08 %cxline - vtor.gt.vion; vtor,vion = 4.168027E+08 4.154480E+08 %cxline - vtor.gt.vion; vtor,vion = 2.132254E+08 2.131743E+08 %cxline - vtor.gt.vion; vtor,vion = 5.736884E+08 5.661594E+08 %cxline - vtor.gt.vion; vtor,vion = 1.460755E+08 1.426782E+08 %cxline - vtor.gt.vion; vtor,vion = 1.433316E+08 1.426782E+08 %cxline - vtor.gt.vion; vtor,vion = 3.260404E+08 3.259148E+08 %cxline - vtor.gt.vion; vtor,vion = 2.865633E+08 2.854652E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orball: in processor 0: orbit # iorb= 66 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 130 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 244 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0173E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orball: in processor 0: orbit # iorb= 138 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 222 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orball: in processor 0: orbit # iorb= 228 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 1841 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0179E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 158 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13392888.8400327 a. %note: constrained curt @ bdy to: 13392888.8400327 a. %note: constrained curt @ bdy to: 13392888.8400327 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13392888.8400327 a. %note: constrained curt @ bdy to: 13392888.8400327 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13392888.8400327 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13392888.8400327 a. nbstart... %note: constrained curt @ bdy to: 13392888.8400327 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3391 - 0 (killed) + 13004 (dep) = 16395 ptcls. %depall specie #2 -> 1452 - 0 (killed) + 14697 (dep) = 16149 ptcls. %depall specie #3 -> 2184 - 0 (killed) + 14073 (dep) = 16257 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.703684E+08 2.690724E+08 %cxline - vtor.gt.vion; vtor,vion = 2.622612E+08 2.576163E+08 %cxline - vtor.gt.vion; vtor,vion = 1.399766E+08 1.378679E+08 %cxline - vtor.gt.vion; vtor,vion = 2.028951E+08 2.014678E+08 %cxline - vtor.gt.vion; vtor,vion = 2.834400E+08 2.795100E+08 %cxline - vtor.gt.vion; vtor,vion = 2.035853E+08 2.016938E+08 %cxline - vtor.gt.vion; vtor,vion = 4.900316E+08 4.824605E+08 %cxline - vtor.gt.vion; vtor,vion = 3.927673E+08 3.903501E+08 %cxline - vtor.gt.vion; vtor,vion = 2.315857E+08 2.256855E+08 %cxline - vtor.gt.vion; vtor,vion = 1.704580E+08 1.699533E+08 %cxline - vtor.gt.vion; vtor,vion = 5.756976E+08 5.734975E+08 %cxline - vtor.gt.vion; vtor,vion = 4.278804E+08 4.204425E+08 %cxline - vtor.gt.vion; vtor,vion = 4.258109E+08 4.204425E+08 %cxline - vtor.gt.vion; vtor,vion = 3.196470E+08 3.187742E+08 %cxline - vtor.gt.vion; vtor,vion = 5.403849E+08 5.397277E+08 %cxline - vtor.gt.vion; vtor,vion = 5.406787E+08 5.397277E+08 %cxline - vtor.gt.vion; vtor,vion = 5.320480E+08 5.319786E+08 %cxline - vtor.gt.vion; vtor,vion = 2.100402E+08 2.086064E+08 %cxline - vtor.gt.vion; vtor,vion = 1.848080E+08 1.835078E+08 %cxline - vtor.gt.vion; vtor,vion = 9.808096E+07 9.712364E+07 %cxline - vtor.gt.vion; vtor,vion = 5.701742E+08 5.684261E+08 %cxline - vtor.gt.vion; vtor,vion = 5.694921E+08 5.684261E+08 %cxline - vtor.gt.vion; vtor,vion = 2.931891E+08 2.930304E+08 %cxline - vtor.gt.vion; vtor,vion = 1.965875E+08 1.932344E+08 %cxline - vtor.gt.vion; vtor,vion = 3.885761E+08 3.858716E+08 %cxline - vtor.gt.vion; vtor,vion = 5.205614E+08 5.161063E+08 %cxline - vtor.gt.vion; vtor,vion = 2.125523E+08 2.104261E+08 %cxline - vtor.gt.vion; vtor,vion = 1.772861E+08 1.740818E+08 %cxline - vtor.gt.vion; vtor,vion = 1.491627E+08 1.491290E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orball: in processor 0: orbit # iorb= 17 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 46 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 78 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orball: in processor 0: orbit # iorb= 125 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orball: in processor 0: orbit # iorb= 143 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 150 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orball: in processor 0: orbit # iorb= 171 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 159 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13386547.3140924 a. %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... %note: constrained curt @ bdy to: 13386547.3140924 a. %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13386547.3140924 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3382 - 0 (killed) + 12915 (dep) = 16297 ptcls. %depall specie #2 -> 1522 - 0 (killed) + 14612 (dep) = 16134 ptcls. %depall specie #3 -> 2257 - 0 (killed) + 13959 (dep) = 16216 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.161919E+08 1.151880E+08 %cxline - vtor.gt.vion; vtor,vion = 1.212148E+08 1.142779E+08 %cxline - vtor.gt.vion; vtor,vion = 1.213683E+08 1.142779E+08 %cxline - vtor.gt.vion; vtor,vion = 2.387056E+08 2.382869E+08 %cxline - vtor.gt.vion; vtor,vion = 8.054794E+07 7.430334E+07 %cxline - vtor.gt.vion; vtor,vion = 8.029538E+07 7.430334E+07 %cxline - vtor.gt.vion; vtor,vion = 8.055409E+07 7.426433E+07 %cxline - vtor.gt.vion; vtor,vion = 8.025939E+07 7.426433E+07 %cxline - vtor.gt.vion; vtor,vion = 7.896365E+07 7.426433E+07 %cxline - vtor.gt.vion; vtor,vion = 7.885746E+07 7.426433E+07 %cxline - vtor.gt.vion; vtor,vion = 1.359532E+08 1.355465E+08 %orball: in processor 0: orbit # iorb= 319 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.567542E+08 2.534581E+08 %cxline - vtor.gt.vion; vtor,vion = 1.820617E+08 1.795909E+08 %cxline - vtor.gt.vion; vtor,vion = 2.171903E+08 2.158805E+08 %cxline - vtor.gt.vion; vtor,vion = 1.521368E+08 1.467856E+08 %cxline - vtor.gt.vion; vtor,vion = 1.523794E+08 1.467856E+08 %cxline - vtor.gt.vion; vtor,vion = 1.466868E+08 1.463149E+08 %cxline - vtor.gt.vion; vtor,vion = 3.305136E+08 3.302799E+08 %orball: in processor 0: orbit # iorb= 1371 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.481336E+08 3.347301E+08 %cxline - vtor.gt.vion; vtor,vion = 5.079088E+08 5.070437E+08 %cxline - vtor.gt.vion; vtor,vion = 6.188297E+08 6.104684E+08 %cxline - vtor.gt.vion; vtor,vion = 3.494850E+08 3.490996E+08 %cxline - vtor.gt.vion; vtor,vion = 2.658468E+08 2.621398E+08 %cxline - vtor.gt.vion; vtor,vion = 2.142883E+08 2.122122E+08 %cxline - vtor.gt.vion; vtor,vion = 2.197640E+08 2.193263E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 37 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orball: in processor 0: orbit # iorb= 53 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 86 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0185E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orball: in processor 0: orbit # iorb= 171 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orball: in processor 0: orbit # iorb= 237 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.739159778571674E+016 277650618325666. zfext1,zfext2= 2.358853255635963E+018 5.212240584733948E+017 %xjaset -- root not found, trying standard fixup iteration= 1 **xjaset: .ge.3 iterations... zfmin,zfcorr= 3.711394716739107E+016 2.776506183256656E+015 zfext1,zfext2= 2.356076749452707E+018 5.184475522901381E+017 %orball: in processor 0: orbit # iorb= 1881 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 160 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13387462.0963607 a. %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... %note: constrained curt @ bdy to: 13387462.0963607 a. %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13387462.0963607 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3534 - 0 (killed) + 12821 (dep) = 16355 ptcls. %depall specie #2 -> 1495 - 0 (killed) + 14644 (dep) = 16139 ptcls. %depall specie #3 -> 2378 - 0 (killed) + 13878 (dep) = 16256 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.256345E+08 2.239067E+08 %cxline - vtor.gt.vion; vtor,vion = 2.006163E+08 1.991233E+08 %cxline - vtor.gt.vion; vtor,vion = 2.720077E+08 2.688543E+08 %cxline - vtor.gt.vion; vtor,vion = 1.139911E+08 1.126485E+08 %cxline - vtor.gt.vion; vtor,vion = 1.142678E+08 1.126485E+08 %cxline - vtor.gt.vion; vtor,vion = 1.162065E+08 1.126485E+08 %cxline - vtor.gt.vion; vtor,vion = 1.150586E+08 1.126485E+08 %cxline - vtor.gt.vion; vtor,vion = 2.571466E+08 2.567982E+08 %cxline - vtor.gt.vion; vtor,vion = 2.363854E+08 2.362298E+08 %cxline - vtor.gt.vion; vtor,vion = 2.709935E+08 2.681687E+08 %cxline - vtor.gt.vion; vtor,vion = 2.757503E+08 2.718369E+08 %cxline - vtor.gt.vion; vtor,vion = 1.589646E+08 1.582384E+08 %cxline - vtor.gt.vion; vtor,vion = 5.003720E+08 4.885769E+08 %cxline - vtor.gt.vion; vtor,vion = 3.910254E+08 3.896240E+08 %cxline - vtor.gt.vion; vtor,vion = 3.914467E+08 3.896240E+08 %cxline - vtor.gt.vion; vtor,vion = 4.232280E+08 4.203865E+08 %cxline - vtor.gt.vion; vtor,vion = 4.250259E+08 4.203865E+08 %cxline - vtor.gt.vion; vtor,vion = 3.393571E+08 3.357119E+08 %cxline - vtor.gt.vion; vtor,vion = 3.154020E+08 3.148401E+08 %cxline - vtor.gt.vion; vtor,vion = 2.265693E+08 2.260397E+08 %cxline - vtor.gt.vion; vtor,vion = 2.640886E+08 2.638701E+08 %cxline - vtor.gt.vion; vtor,vion = 3.574563E+08 3.561600E+08 %cxline - vtor.gt.vion; vtor,vion = 4.191903E+08 4.103602E+08 %cxline - vtor.gt.vion; vtor,vion = 2.618509E+08 2.578807E+08 %cxline - vtor.gt.vion; vtor,vion = 2.634269E+08 2.578807E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %cxline - vtor.gt.vion; vtor,vion = 1.613612E+08 1.613328E+08 %cxline - vtor.gt.vion; vtor,vion = 7.469386E+07 7.181247E+07 %cxline - vtor.gt.vion; vtor,vion = 7.361661E+07 7.181247E+07 %cxline - vtor.gt.vion; vtor,vion = 8.306466E+07 7.154549E+07 %cxline - vtor.gt.vion; vtor,vion = 8.328150E+07 7.154549E+07 %cxline - vtor.gt.vion; vtor,vion = 4.937469E+08 4.931625E+08 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 62 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orball: in processor 0: orbit # iorb= 70 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 96 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0205E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orball: in processor 0: orbit # iorb= 188 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 201 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 269 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 276 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 1472 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 nbfinish... entering outptb2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 161 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13378879.0842253 a. %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... %note: constrained curt @ bdy to: 13378879.0842253 a. %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13378879.0842253 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3565 - 0 (killed) + 12435 (dep) = 16000 ptcls. %depall specie #2 -> 1592 - 0 (killed) + 14408 (dep) = 16000 ptcls. %depall specie #3 -> 2384 - 0 (killed) + 13616 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.075140E+08 3.049284E+08 %cxline - vtor.gt.vion; vtor,vion = 3.173373E+08 3.109482E+08 %cxline - vtor.gt.vion; vtor,vion = 3.183547E+08 3.109482E+08 %cxline - vtor.gt.vion; vtor,vion = 1.967861E+08 1.957448E+08 %cxline - vtor.gt.vion; vtor,vion = 1.708794E+08 1.707469E+08 %cxline - vtor.gt.vion; vtor,vion = 2.257021E+08 2.249825E+08 %cxline - vtor.gt.vion; vtor,vion = 2.830109E+08 2.821444E+08 %cxline - vtor.gt.vion; vtor,vion = 4.517166E+08 4.514232E+08 %cxline - vtor.gt.vion; vtor,vion = 2.180611E+08 2.178843E+08 %cxline - vtor.gt.vion; vtor,vion = 4.179558E+08 4.177354E+08 %cxline - vtor.gt.vion; vtor,vion = 4.841020E+08 4.814965E+08 %cxline - vtor.gt.vion; vtor,vion = 2.216269E+08 2.176651E+08 %cxline - vtor.gt.vion; vtor,vion = 2.649942E+08 2.629738E+08 %cxline - vtor.gt.vion; vtor,vion = 2.243514E+08 2.241732E+08 %cxline - vtor.gt.vion; vtor,vion = 1.708900E+08 1.702564E+08 %cxline - vtor.gt.vion; vtor,vion = 1.818207E+08 1.817136E+08 %cxline - vtor.gt.vion; vtor,vion = 1.821093E+08 1.817136E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417952E+08 1.351149E+08 %cxline - vtor.gt.vion; vtor,vion = 1.425170E+08 1.351149E+08 %cxline - vtor.gt.vion; vtor,vion = 1.353992E+08 1.352054E+08 %cxline - vtor.gt.vion; vtor,vion = 2.100691E+08 2.075957E+08 %cxline - vtor.gt.vion; vtor,vion = 3.124165E+08 3.123004E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0185E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 195 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0183E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0185E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 59 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orball: in processor 0: orbit # iorb= 235 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0187E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0182E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 1359 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 162 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13460000.1209328 a. %note: constrained curt @ bdy to: 13460000.1209328 a. %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... %note: constrained curt @ bdy to: 13460000.1209328 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3696 - 0 (killed) + 12304 (dep) = 16000 ptcls. %depall specie #2 -> 1383 - 0 (killed) + 14617 (dep) = 16000 ptcls. %depall specie #3 -> 2343 - 0 (killed) + 13657 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.581187E+08 1.529946E+08 %cxline - vtor.gt.vion; vtor,vion = 1.575091E+08 1.529946E+08 %cxline - vtor.gt.vion; vtor,vion = 6.596055E+07 5.927686E+07 %cxline - vtor.gt.vion; vtor,vion = 6.495736E+07 5.927686E+07 %cxline - vtor.gt.vion; vtor,vion = 1.756990E+08 1.737091E+08 %cxline - vtor.gt.vion; vtor,vion = 1.963353E+08 1.940557E+08 %cxline - vtor.gt.vion; vtor,vion = 1.008335E+08 9.904688E+07 %cxline - vtor.gt.vion; vtor,vion = 1.062554E+08 9.890510E+07 %cxline - vtor.gt.vion; vtor,vion = 1.053888E+08 9.890510E+07 %cxline - vtor.gt.vion; vtor,vion = 1.042375E+08 9.898144E+07 %cxline - vtor.gt.vion; vtor,vion = 1.041660E+08 9.898144E+07 %cxline - vtor.gt.vion; vtor,vion = 1.072344E+08 9.898144E+07 %cxline - vtor.gt.vion; vtor,vion = 1.068452E+08 9.898144E+07 %cxline - vtor.gt.vion; vtor,vion = 9.924859E+07 9.778593E+07 %cxline - vtor.gt.vion; vtor,vion = 1.014122E+08 1.001247E+08 %cxline - vtor.gt.vion; vtor,vion = 1.477167E+08 1.475786E+08 %cxline - vtor.gt.vion; vtor,vion = 7.437110E+07 7.298354E+07 %cxline - vtor.gt.vion; vtor,vion = 2.594066E+08 2.548715E+08 %cxline - vtor.gt.vion; vtor,vion = 1.740944E+08 1.714117E+08 %cxline - vtor.gt.vion; vtor,vion = 1.724879E+08 1.714117E+08 %cxline - vtor.gt.vion; vtor,vion = 3.463455E+08 3.382721E+08 %cxline - vtor.gt.vion; vtor,vion = 3.304968E+08 3.291081E+08 %cxline - vtor.gt.vion; vtor,vion = 4.032425E+08 4.028818E+08 %cxline - vtor.gt.vion; vtor,vion = 1.039896E+08 1.039342E+08 %cxline - vtor.gt.vion; vtor,vion = 8.585023E+07 8.567113E+07 %cxline - vtor.gt.vion; vtor,vion = 2.202251E+08 2.193757E+08 %cxline - vtor.gt.vion; vtor,vion = 2.726360E+08 2.699674E+08 %cxline - vtor.gt.vion; vtor,vion = 2.159780E+08 2.152434E+08 %cxline - vtor.gt.vion; vtor,vion = 2.021895E+08 2.019475E+08 %cxline - vtor.gt.vion; vtor,vion = 2.455967E+08 2.444837E+08 %cxline - vtor.gt.vion; vtor,vion = 1.739912E+08 1.735163E+08 %cxline - vtor.gt.vion; vtor,vion = 1.740411E+08 1.735163E+08 %cxline - vtor.gt.vion; vtor,vion = 9.335823E+07 8.493445E+07 %cxline - vtor.gt.vion; vtor,vion = 9.373593E+07 8.493445E+07 %cxline - vtor.gt.vion; vtor,vion = 8.694495E+07 8.277731E+07 %cxline - vtor.gt.vion; vtor,vion = 8.772794E+07 8.277731E+07 %cxline - vtor.gt.vion; vtor,vion = 8.635455E+07 8.112574E+07 %cxline - vtor.gt.vion; vtor,vion = 8.738843E+07 8.112574E+07 %cxline - vtor.gt.vion; vtor,vion = 1.766559E+08 1.733538E+08 %cxline - vtor.gt.vion; vtor,vion = 1.774092E+08 1.733538E+08 %cxline - vtor.gt.vion; vtor,vion = 5.671349E+08 5.595265E+08 %cxline - vtor.gt.vion; vtor,vion = 1.643064E+08 1.633603E+08 %cxline - vtor.gt.vion; vtor,vion = 1.655883E+08 1.633603E+08 %cxline - vtor.gt.vion; vtor,vion = 2.238043E+08 2.177920E+08 %cxline - vtor.gt.vion; vtor,vion = 3.697186E+08 3.625704E+08 %cxline - vtor.gt.vion; vtor,vion = 1.570119E+08 1.544692E+08 %cxline - vtor.gt.vion; vtor,vion = 2.336634E+08 2.326174E+08 %cxline - vtor.gt.vion; vtor,vion = 3.780525E+08 3.742196E+08 %cxline - vtor.gt.vion; vtor,vion = 1.673565E+08 1.639621E+08 %cxline - vtor.gt.vion; vtor,vion = 9.177598E+07 9.173393E+07 %cxline - vtor.gt.vion; vtor,vion = 1.659068E+08 1.646705E+08 %cxline - vtor.gt.vion; vtor,vion = 2.514365E+08 2.511491E+08 %cxline - vtor.gt.vion; vtor,vion = 8.599072E+07 8.448748E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orball: in processor 0: orbit # iorb= 56 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 99 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orball: in processor 0: orbit # iorb= 122 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 87 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 162 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 173 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 163 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13648334.2255091 a. %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13648334.2255091 a. nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... %note: constrained curt @ bdy to: 13648334.2255091 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3547 - 0 (killed) + 12453 (dep) = 16000 ptcls. %depall specie #2 -> 1233 - 0 (killed) + 14767 (dep) = 16000 ptcls. %depall specie #3 -> 2091 - 0 (killed) + 13909 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.799007E+08 1.745059E+08 %cxline - vtor.gt.vion; vtor,vion = 1.812166E+08 1.762442E+08 %cxline - vtor.gt.vion; vtor,vion = 1.296592E+08 1.292502E+08 %cxline - vtor.gt.vion; vtor,vion = 1.699858E+08 1.662345E+08 %cxline - vtor.gt.vion; vtor,vion = 2.613717E+08 2.611759E+08 %cxline - vtor.gt.vion; vtor,vion = 9.073501E+07 9.051964E+07 %cxline - vtor.gt.vion; vtor,vion = 9.583233E+07 9.573635E+07 %cxline - vtor.gt.vion; vtor,vion = 1.147076E+08 1.132183E+08 %cxline - vtor.gt.vion; vtor,vion = 1.157100E+08 1.132183E+08 %cxline - vtor.gt.vion; vtor,vion = 1.128354E+08 1.106038E+08 %cxline - vtor.gt.vion; vtor,vion = 1.112991E+08 1.106038E+08 %cxline - vtor.gt.vion; vtor,vion = 1.121770E+08 1.106146E+08 %cxline - vtor.gt.vion; vtor,vion = 1.111140E+08 1.106146E+08 %cxline - vtor.gt.vion; vtor,vion = 1.897029E+08 1.894189E+08 %cxline - vtor.gt.vion; vtor,vion = 2.745778E+08 2.738005E+08 %cxline - vtor.gt.vion; vtor,vion = 2.459224E+08 2.436741E+08 %cxline - vtor.gt.vion; vtor,vion = 2.088537E+08 2.086322E+08 %cxline - vtor.gt.vion; vtor,vion = 8.974134E+07 8.853388E+07 %cxline - vtor.gt.vion; vtor,vion = 8.370110E+07 8.309631E+07 %cxline - vtor.gt.vion; vtor,vion = 8.392220E+07 8.309631E+07 %cxline - vtor.gt.vion; vtor,vion = 2.279958E+08 2.275660E+08 %cxline - vtor.gt.vion; vtor,vion = 1.190274E+08 1.155609E+08 %cxline - vtor.gt.vion; vtor,vion = 1.177889E+08 1.155609E+08 %cxline - vtor.gt.vion; vtor,vion = 4.398619E+08 4.387447E+08 %cxline - vtor.gt.vion; vtor,vion = 1.709266E+08 1.707110E+08 %cxline - vtor.gt.vion; vtor,vion = 2.046368E+08 2.042056E+08 %cxline - vtor.gt.vion; vtor,vion = 2.081817E+08 2.053969E+08 %cxline - vtor.gt.vion; vtor,vion = 1.963846E+08 1.951347E+08 %cxline - vtor.gt.vion; vtor,vion = 1.600827E+08 1.598493E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599254E+08 1.598493E+08 %cxline - vtor.gt.vion; vtor,vion = 2.473655E+08 2.455569E+08 %cxline - vtor.gt.vion; vtor,vion = 2.312561E+08 2.267632E+08 %cxline - vtor.gt.vion; vtor,vion = 2.459684E+08 2.429162E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orball: in processor 0: orbit # iorb= 153 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orball: in processor 0: orbit # iorb= 112 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 219 never inside plasma. %orball: in processor 0: orbit # iorb= 225 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0187E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 164 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13745120.1224300 a. %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %note: constrained curt @ bdy to: 13745120.1224300 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3343 - 0 (killed) + 12657 (dep) = 16000 ptcls. %depall specie #2 -> 1090 - 0 (killed) + 14910 (dep) = 16000 ptcls. %depall specie #3 -> 1935 - 0 (killed) + 14065 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 3.083047E+08 3.070762E+08 %cxline - vtor.gt.vion; vtor,vion = 1.812099E+08 1.795350E+08 %cxline - vtor.gt.vion; vtor,vion = 1.722051E+08 1.717538E+08 %cxline - vtor.gt.vion; vtor,vion = 1.718966E+08 1.642249E+08 %cxline - vtor.gt.vion; vtor,vion = 1.080662E+08 1.072081E+08 %cxline - vtor.gt.vion; vtor,vion = 1.085094E+08 1.072081E+08 %cxline - vtor.gt.vion; vtor,vion = 1.217257E+08 1.176820E+08 %cxline - vtor.gt.vion; vtor,vion = 1.797859E+08 1.771439E+08 %cxline - vtor.gt.vion; vtor,vion = 1.617380E+08 1.612665E+08 %cxline - vtor.gt.vion; vtor,vion = 7.465220E+07 7.375093E+07 %cxline - vtor.gt.vion; vtor,vion = 7.309657E+07 7.064660E+07 %cxline - vtor.gt.vion; vtor,vion = 7.383043E+07 7.064660E+07 %cxline - vtor.gt.vion; vtor,vion = 1.083270E+08 1.062542E+08 %cxline - vtor.gt.vion; vtor,vion = 2.080573E+08 2.080380E+08 %cxline - vtor.gt.vion; vtor,vion = 2.383813E+08 2.373404E+08 %cxline - vtor.gt.vion; vtor,vion = 3.854454E+08 3.821305E+08 %cxline - vtor.gt.vion; vtor,vion = 2.566366E+08 2.547734E+08 %cxline - vtor.gt.vion; vtor,vion = 1.676535E+08 1.662906E+08 %cxline - vtor.gt.vion; vtor,vion = 5.776420E+07 5.496976E+07 %cxline - vtor.gt.vion; vtor,vion = 5.693992E+07 5.496976E+07 %cxline - vtor.gt.vion; vtor,vion = 2.523319E+08 2.494999E+08 %cxline - vtor.gt.vion; vtor,vion = 6.522289E+07 6.276715E+07 %cxline - vtor.gt.vion; vtor,vion = 6.774977E+07 6.276715E+07 %cxline - vtor.gt.vion; vtor,vion = 1.437061E+08 1.420716E+08 %cxline - vtor.gt.vion; vtor,vion = 1.414126E+08 1.413186E+08 %cxline - vtor.gt.vion; vtor,vion = 1.695703E+08 1.690208E+08 %cxline - vtor.gt.vion; vtor,vion = 1.738018E+08 1.737882E+08 %cxline - vtor.gt.vion; vtor,vion = 3.707772E+08 3.702065E+08 %orball: in processor 0: orbit # iorb= 1824 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.055095E+08 2.054241E+08 %cxline - vtor.gt.vion; vtor,vion = 2.355968E+08 2.332334E+08 %cxline - vtor.gt.vion; vtor,vion = 7.391679E+07 7.350660E+07 %cxline - vtor.gt.vion; vtor,vion = 7.419126E+07 7.402237E+07 %cxline - vtor.gt.vion; vtor,vion = 7.417111E+07 7.402237E+07 %cxline - vtor.gt.vion; vtor,vion = 2.382365E+08 2.381460E+08 %cxline - vtor.gt.vion; vtor,vion = 2.489044E+08 2.487109E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 165 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13747378.3805900 a. %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %note: constrained curt @ bdy to: 13747378.3805900 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2956 - 0 (killed) + 13708 (dep) = 16664 ptcls. %depall specie #2 -> 962 - 0 (killed) + 15295 (dep) = 16257 ptcls. %depall specie #3 -> 1713 - 0 (killed) + 14777 (dep) = 16490 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.297594E+08 2.279488E+08 %cxline - vtor.gt.vion; vtor,vion = 2.244059E+08 2.234455E+08 %cxline - vtor.gt.vion; vtor,vion = 2.198834E+08 2.196268E+08 %cxline - vtor.gt.vion; vtor,vion = 1.507379E+08 1.502044E+08 %cxline - vtor.gt.vion; vtor,vion = 9.421436E+07 9.154696E+07 %cxline - vtor.gt.vion; vtor,vion = 9.467239E+07 9.154696E+07 %cxline - vtor.gt.vion; vtor,vion = 9.514064E+07 9.147072E+07 %cxline - vtor.gt.vion; vtor,vion = 9.546938E+07 9.147072E+07 %cxline - vtor.gt.vion; vtor,vion = 2.277075E+08 2.271631E+08 %cxline - vtor.gt.vion; vtor,vion = 2.340308E+08 2.300644E+08 %cxline - vtor.gt.vion; vtor,vion = 2.314176E+08 2.300644E+08 %cxline - vtor.gt.vion; vtor,vion = 3.215868E+08 3.171976E+08 %cxline - vtor.gt.vion; vtor,vion = 1.232806E+08 1.215240E+08 %cxline - vtor.gt.vion; vtor,vion = 2.226394E+08 2.169313E+08 %cxline - vtor.gt.vion; vtor,vion = 3.316520E+08 3.307906E+08 %cxline - vtor.gt.vion; vtor,vion = 5.136649E+08 5.132092E+08 %cxline - vtor.gt.vion; vtor,vion = 1.805418E+08 1.780524E+08 %cxline - vtor.gt.vion; vtor,vion = 1.820473E+08 1.780524E+08 %cxline - vtor.gt.vion; vtor,vion = 1.826363E+08 1.769393E+08 %cxline - vtor.gt.vion; vtor,vion = 1.841579E+08 1.769393E+08 %cxline - vtor.gt.vion; vtor,vion = 1.582453E+08 1.557826E+08 %cxline - vtor.gt.vion; vtor,vion = 3.590270E+08 3.582455E+08 %cxline - vtor.gt.vion; vtor,vion = 1.687627E+08 1.677408E+08 %cxline - vtor.gt.vion; vtor,vion = 2.249647E+08 2.196331E+08 %cxline - vtor.gt.vion; vtor,vion = 2.229926E+08 2.196331E+08 %cxline - vtor.gt.vion; vtor,vion = 2.163535E+08 2.160806E+08 %cxline - vtor.gt.vion; vtor,vion = 1.644308E+08 1.638166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.202238E+08 1.181258E+08 %cxline - vtor.gt.vion; vtor,vion = 4.464570E+08 4.431436E+08 %cxline - vtor.gt.vion; vtor,vion = 2.890931E+08 2.808257E+08 %cxline - vtor.gt.vion; vtor,vion = 6.543117E+07 6.540388E+07 %cxline - vtor.gt.vion; vtor,vion = 3.274325E+08 3.274195E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0194E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orball: in processor 0: orbit # iorb= 1972 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 166 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13520495.0558133 a. %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... %note: constrained curt @ bdy to: 13520495.0558133 a. %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13520495.0558133 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2792 - 0 (killed) + 13816 (dep) = 16608 ptcls. %depall specie #2 -> 1058 - 0 (killed) + 15187 (dep) = 16245 ptcls. %depall specie #3 -> 1662 - 0 (killed) + 14785 (dep) = 16447 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.175258E+08 3.146207E+08 %cxline - vtor.gt.vion; vtor,vion = 3.510695E+08 3.474740E+08 %cxline - vtor.gt.vion; vtor,vion = 9.277272E+07 9.211462E+07 %cxline - vtor.gt.vion; vtor,vion = 1.347519E+08 1.347011E+08 %cxline - vtor.gt.vion; vtor,vion = 1.237378E+08 1.235288E+08 %cxline - vtor.gt.vion; vtor,vion = 1.187670E+08 1.182876E+08 %cxline - vtor.gt.vion; vtor,vion = 1.191663E+08 1.182876E+08 %cxline - vtor.gt.vion; vtor,vion = 3.233688E+08 3.224395E+08 %cxline - vtor.gt.vion; vtor,vion = 4.687205E+08 4.686331E+08 %cxline - vtor.gt.vion; vtor,vion = 1.207267E+08 1.190475E+08 %cxline - vtor.gt.vion; vtor,vion = 1.214917E+08 1.167408E+08 %cxline - vtor.gt.vion; vtor,vion = 1.208130E+08 1.167408E+08 %cxline - vtor.gt.vion; vtor,vion = 2.004375E+08 1.997005E+08 %cxline - vtor.gt.vion; vtor,vion = 5.467013E+08 5.429006E+08 %cxline - vtor.gt.vion; vtor,vion = 5.447011E+08 5.429006E+08 %cxline - vtor.gt.vion; vtor,vion = 1.314359E+08 1.314083E+08 %cxline - vtor.gt.vion; vtor,vion = 1.378251E+08 1.358473E+08 %cxline - vtor.gt.vion; vtor,vion = 1.274798E+08 1.256567E+08 %cxline - vtor.gt.vion; vtor,vion = 1.260606E+08 1.256567E+08 %cxline - vtor.gt.vion; vtor,vion = 1.638287E+08 1.617773E+08 %cxline - vtor.gt.vion; vtor,vion = 1.638101E+08 1.617773E+08 %cxline - vtor.gt.vion; vtor,vion = 1.397326E+08 1.394038E+08 %cxline - vtor.gt.vion; vtor,vion = 1.212630E+08 1.208324E+08 %cxline - vtor.gt.vion; vtor,vion = 4.012666E+08 3.999457E+08 %cxline - vtor.gt.vion; vtor,vion = 3.999750E+08 3.999457E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %cxline - vtor.gt.vion; vtor,vion = 2.657402E+08 2.636420E+08 %cxline - vtor.gt.vion; vtor,vion = 2.689572E+08 2.636420E+08 %cxline - vtor.gt.vion; vtor,vion = 8.988109E+07 8.944015E+07 %cxline - vtor.gt.vion; vtor,vion = 1.691146E+08 1.689821E+08 %cxline - vtor.gt.vion; vtor,vion = 4.427688E+08 4.416531E+08 %cxline - vtor.gt.vion; vtor,vion = 2.400870E+08 2.400059E+08 %orball: in processor 0: orbit # iorb= 1572 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.336363E+08 1.286636E+08 %cxline - vtor.gt.vion; vtor,vion = 1.338051E+08 1.286636E+08 %cxline - vtor.gt.vion; vtor,vion = 1.466781E+08 1.460015E+08 %cxline - vtor.gt.vion; vtor,vion = 2.294008E+08 2.224863E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 15 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orball: in processor 0: orbit # iorb= 59 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 85 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 77 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orball: in processor 0: orbit # iorb= 143 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orball: in processor 0: orbit # iorb= 155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 162 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 185 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orball: in processor 0: orbit # iorb= 444 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 167 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13497750.5487828 a. %note: constrained curt @ bdy to: 13497750.5487828 a. %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... %note: constrained curt @ bdy to: 13497750.5487828 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2774 - 0 (killed) + 14005 (dep) = 16779 ptcls. %depall specie #2 -> 1154 - 0 (killed) + 15185 (dep) = 16339 ptcls. %depall specie #3 -> 1698 - 0 (killed) + 14868 (dep) = 16566 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 7.464525E+07 6.684707E+07 %cxline - vtor.gt.vion; vtor,vion = 7.440920E+07 6.684707E+07 %cxline - vtor.gt.vion; vtor,vion = 1.648002E+08 1.631036E+08 %cxline - vtor.gt.vion; vtor,vion = 4.462560E+08 4.451319E+08 %cxline - vtor.gt.vion; vtor,vion = 2.615704E+08 2.560057E+08 %orball: in processor 0: orbit # iorb= 71 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.378020E+08 2.373759E+08 %cxline - vtor.gt.vion; vtor,vion = 9.193468E+07 9.123048E+07 %cxline - vtor.gt.vion; vtor,vion = 2.131856E+08 2.099778E+08 %cxline - vtor.gt.vion; vtor,vion = 1.789845E+08 1.757163E+08 %cxline - vtor.gt.vion; vtor,vion = 1.602387E+08 1.579987E+08 %cxline - vtor.gt.vion; vtor,vion = 1.609421E+08 1.579987E+08 %cxline - vtor.gt.vion; vtor,vion = 2.422708E+08 2.329075E+08 %cxline - vtor.gt.vion; vtor,vion = 3.702204E+08 3.695156E+08 %cxline - vtor.gt.vion; vtor,vion = 3.672908E+08 3.672024E+08 %cxline - vtor.gt.vion; vtor,vion = 4.521838E+08 4.508601E+08 %orball: in processor 0: orbit # iorb= 466 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.372086E+08 2.371602E+08 %cxline - vtor.gt.vion; vtor,vion = 2.370559E+08 2.367140E+08 %cxline - vtor.gt.vion; vtor,vion = 2.448783E+08 2.432385E+08 %cxline - vtor.gt.vion; vtor,vion = 1.349751E+08 1.342494E+08 %cxline - vtor.gt.vion; vtor,vion = 2.622123E+08 2.601870E+08 %cxline - vtor.gt.vion; vtor,vion = 5.079793E+08 5.065912E+08 %cxline - vtor.gt.vion; vtor,vion = 5.074237E+08 5.065912E+08 %cxline - vtor.gt.vion; vtor,vion = 5.217300E+08 5.202992E+08 %cxline - vtor.gt.vion; vtor,vion = 5.234757E+08 5.202992E+08 %cxline - vtor.gt.vion; vtor,vion = 2.508144E+08 2.472669E+08 %cxline - vtor.gt.vion; vtor,vion = 3.404524E+08 3.363155E+08 %cxline - vtor.gt.vion; vtor,vion = 1.730454E+08 1.727707E+08 %cxline - vtor.gt.vion; vtor,vion = 3.621605E+08 3.619457E+08 %cxline - vtor.gt.vion; vtor,vion = 6.611386E+08 6.497688E+08 %cxline - vtor.gt.vion; vtor,vion = 3.779718E+08 3.772634E+08 %cxline - vtor.gt.vion; vtor,vion = 2.573927E+08 2.563705E+08 %cxline - vtor.gt.vion; vtor,vion = 1.368804E+08 1.368730E+08 %cxline - vtor.gt.vion; vtor,vion = 3.154444E+08 3.140010E+08 %cxline - vtor.gt.vion; vtor,vion = 2.322164E+08 2.300594E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 48 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 102 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 135 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0240E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 82 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orball: in processor 0: orbit # iorb= 189 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orball: in processor 0: orbit # iorb= 192 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 233 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 475 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0226E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 1619 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 168 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13446507.7683734 a. %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %note: constrained curt @ bdy to: 13446507.7683734 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2859 - 0 (killed) + 13787 (dep) = 16646 ptcls. %depall specie #2 -> 1195 - 0 (killed) + 15070 (dep) = 16265 ptcls. %depall specie #3 -> 1876 - 0 (killed) + 14606 (dep) = 16482 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.170645E+08 3.162412E+08 %cxline - vtor.gt.vion; vtor,vion = 2.728924E+08 2.714062E+08 %cxline - vtor.gt.vion; vtor,vion = 2.179695E+08 2.166563E+08 %cxline - vtor.gt.vion; vtor,vion = 1.385068E+08 1.371096E+08 %cxline - vtor.gt.vion; vtor,vion = 1.144553E+08 1.138214E+08 %orball: in processor 0: orbit # iorb= 190 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.751839E+08 2.743459E+08 %cxline - vtor.gt.vion; vtor,vion = 2.168021E+08 2.163528E+08 %cxline - vtor.gt.vion; vtor,vion = 2.195757E+08 2.191132E+08 %cxline - vtor.gt.vion; vtor,vion = 4.030580E+08 4.023263E+08 %cxline - vtor.gt.vion; vtor,vion = 2.319279E+08 2.308362E+08 %cxline - vtor.gt.vion; vtor,vion = 2.014306E+08 2.013816E+08 %cxline - vtor.gt.vion; vtor,vion = 3.161086E+08 3.148941E+08 %cxline - vtor.gt.vion; vtor,vion = 4.708418E+08 4.702989E+08 %cxline - vtor.gt.vion; vtor,vion = 3.521589E+08 3.520530E+08 %cxline - vtor.gt.vion; vtor,vion = 3.419094E+08 3.416588E+08 %cxline - vtor.gt.vion; vtor,vion = 8.783659E+07 8.175692E+07 %cxline - vtor.gt.vion; vtor,vion = 8.395435E+07 8.175692E+07 %cxline - vtor.gt.vion; vtor,vion = 8.881746E+07 8.181307E+07 %cxline - vtor.gt.vion; vtor,vion = 8.819282E+07 8.181307E+07 %cxline - vtor.gt.vion; vtor,vion = 2.610309E+08 2.591789E+08 %cxline - vtor.gt.vion; vtor,vion = 1.818135E+08 1.789494E+08 %cxline - vtor.gt.vion; vtor,vion = 1.793061E+08 1.789494E+08 %cxline - vtor.gt.vion; vtor,vion = 1.802850E+08 1.802059E+08 %cxline - vtor.gt.vion; vtor,vion = 3.156464E+08 3.067767E+08 %cxline - vtor.gt.vion; vtor,vion = 1.023696E+08 1.016363E+08 %cxline - vtor.gt.vion; vtor,vion = 5.794428E+08 5.792424E+08 %orball: in processor 0: orbit # iorb= 1176 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.589557E+08 6.528155E+08 %cxline - vtor.gt.vion; vtor,vion = 2.435736E+08 2.433536E+08 %cxline - vtor.gt.vion; vtor,vion = 5.985289E+08 5.968119E+08 %cxline - vtor.gt.vion; vtor,vion = 5.993680E+08 5.968119E+08 %cxline - vtor.gt.vion; vtor,vion = 1.983655E+08 1.933262E+08 %cxline - vtor.gt.vion; vtor,vion = 1.988407E+08 1.933262E+08 %cxline - vtor.gt.vion; vtor,vion = 4.316648E+08 4.316215E+08 %cxline - vtor.gt.vion; vtor,vion = 4.229653E+08 4.222054E+08 %cxline - vtor.gt.vion; vtor,vion = 3.903281E+08 3.900342E+08 %cxline - vtor.gt.vion; vtor,vion = 3.401408E+08 3.394349E+08 %cxline - vtor.gt.vion; vtor,vion = 1.649673E+08 1.599163E+08 %cxline - vtor.gt.vion; vtor,vion = 1.617317E+08 1.599163E+08 %cxline - vtor.gt.vion; vtor,vion = 1.654580E+08 1.598048E+08 %cxline - vtor.gt.vion; vtor,vion = 1.641742E+08 1.598048E+08 %cxline - vtor.gt.vion; vtor,vion = 1.654235E+08 1.597655E+08 %cxline - vtor.gt.vion; vtor,vion = 1.642509E+08 1.597655E+08 %cxline - vtor.gt.vion; vtor,vion = 1.671371E+08 1.606861E+08 %cxline - vtor.gt.vion; vtor,vion = 1.676555E+08 1.606861E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 15 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orball: in processor 0: orbit # iorb= 128 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0169E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orball: in processor 0: orbit # iorb= 60 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orball: in processor 0: orbit # iorb= 74 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orball: in processor 0: orbit # iorb= 139 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 1996 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 169 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13415203.3624390 a. %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbstart... %note: constrained curt @ bdy to: 13415203.3624390 a. %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... %note: constrained curt @ bdy to: 13415203.3624390 a. nbstart... %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... **xjaset: .ge.3 iterations... zfmin,zfcorr= 2.504832227735245E+016 337688246255096. zfext1,zfext2= 3.059355814611887E+018 5.114287627489608E+017 %depall specie #1 -> 2914 - 0 (killed) + 13601 (dep) = 16515 ptcls. %depall specie #2 -> 1361 - 0 (killed) + 14881 (dep) = 16242 ptcls. %depall specie #3 -> 1883 - 0 (killed) + 14480 (dep) = 16363 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.168297E+08 2.127728E+08 %cxline - vtor.gt.vion; vtor,vion = 1.719695E+08 1.669098E+08 %cxline - vtor.gt.vion; vtor,vion = 3.347574E+08 3.335619E+08 %cxline - vtor.gt.vion; vtor,vion = 4.132916E+08 4.130568E+08 %cxline - vtor.gt.vion; vtor,vion = 3.227338E+08 3.226485E+08 %cxline - vtor.gt.vion; vtor,vion = 4.774497E+08 4.635895E+08 %cxline - vtor.gt.vion; vtor,vion = 5.898496E+08 5.873329E+08 %orball: in processor 0: orbit # iorb= 890 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.180727E+08 5.161796E+08 %cxline - vtor.gt.vion; vtor,vion = 3.858938E+08 3.817255E+08 %cxline - vtor.gt.vion; vtor,vion = 1.675750E+08 1.673287E+08 %cxline - vtor.gt.vion; vtor,vion = 4.215149E+08 4.191125E+08 %cxline - vtor.gt.vion; vtor,vion = 2.118014E+08 2.099960E+08 %cxline - vtor.gt.vion; vtor,vion = 4.424593E+08 4.351710E+08 %cxline - vtor.gt.vion; vtor,vion = 1.658265E+08 1.643751E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417866E+08 1.417587E+08 %cxline - vtor.gt.vion; vtor,vion = 2.999468E+08 2.942678E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 21 never inside plasma. %orball: in processor 0: orbit # iorb= 29 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orball: in processor 0: orbit # iorb= 78 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 157 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 30 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0304E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 129 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0217E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0209E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orball: in processor 0: orbit # iorb= 1664 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 170 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... %note: constrained curt @ bdy to: 13390764.7140470 a. %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... %note: constrained curt @ bdy to: 13390764.7140470 a. %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... %note: constrained curt @ bdy to: 13390764.7140470 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3033 - 0 (killed) + 13404 (dep) = 16437 ptcls. %depall specie #2 -> 1351 - 0 (killed) + 14832 (dep) = 16183 ptcls. %depall specie #3 -> 2030 - 0 (killed) + 14288 (dep) = 16318 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.425646E+08 3.419576E+08 %cxline - vtor.gt.vion; vtor,vion = 1.092505E+08 1.080130E+08 %cxline - vtor.gt.vion; vtor,vion = 9.799438E+07 9.718339E+07 %cxline - vtor.gt.vion; vtor,vion = 5.446269E+08 5.413180E+08 %cxline - vtor.gt.vion; vtor,vion = 1.836749E+08 1.799014E+08 %cxline - vtor.gt.vion; vtor,vion = 4.637651E+08 4.522986E+08 %cxline - vtor.gt.vion; vtor,vion = 1.797859E+08 1.762857E+08 %cxline - vtor.gt.vion; vtor,vion = 2.360092E+08 2.351255E+08 %cxline - vtor.gt.vion; vtor,vion = 1.498791E+08 1.498045E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %cxline - vtor.gt.vion; vtor,vion = 2.556486E+08 2.551398E+08 %cxline - vtor.gt.vion; vtor,vion = 4.232809E+08 4.142258E+08 %cxline - vtor.gt.vion; vtor,vion = 9.870632E+07 9.861912E+07 %cxline - vtor.gt.vion; vtor,vion = 2.212049E+08 2.204373E+08 %cxline - vtor.gt.vion; vtor,vion = 6.994138E+08 6.990632E+08 %cxline - vtor.gt.vion; vtor,vion = 3.996855E+08 3.986274E+08 %cxline - vtor.gt.vion; vtor,vion = 4.513506E+08 4.505888E+08 %cxline - vtor.gt.vion; vtor,vion = 6.234386E+08 6.214017E+08 %cxline - vtor.gt.vion; vtor,vion = 6.239386E+08 6.214017E+08 %cxline - vtor.gt.vion; vtor,vion = 4.069407E+08 4.010711E+08 %orball: in processor 0: orbit # iorb= 1646 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.460817E+08 5.415381E+08 %cxline - vtor.gt.vion; vtor,vion = 5.499994E+08 5.415381E+08 %cxline - vtor.gt.vion; vtor,vion = 1.529214E+08 1.496547E+08 %orball: in processor 0: orbit # iorb= 1820 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.955474E+08 2.853639E+08 %cxline - vtor.gt.vion; vtor,vion = 4.360267E+08 4.359547E+08 %cxline - vtor.gt.vion; vtor,vion = 5.226726E+08 5.175232E+08 %cxline - vtor.gt.vion; vtor,vion = 5.191761E+08 5.175232E+08 %cxline - vtor.gt.vion; vtor,vion = 1.751075E+08 1.742471E+08 %cxline - vtor.gt.vion; vtor,vion = 3.611120E+08 3.548883E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orball: in processor 0: orbit # iorb= 5 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 26 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orball: in processor 0: orbit # iorb= 54 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 116 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orball: in processor 0: orbit # iorb= 157 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0204E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orball: in processor 0: orbit # iorb= 9 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0199E+00 %orball: in processor 0: orbit # iorb= 151 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0160E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 171 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13380039.9333013 a. %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... %note: constrained curt @ bdy to: 13380039.9333013 a. %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... %note: constrained curt @ bdy to: 13380039.9333013 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3169 - 0 (killed) + 13252 (dep) = 16421 ptcls. %depall specie #2 -> 1416 - 0 (killed) + 14765 (dep) = 16181 ptcls. %depall specie #3 -> 1979 - 0 (killed) + 14288 (dep) = 16267 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 4.564723E+08 4.536642E+08 %cxline - vtor.gt.vion; vtor,vion = 4.574293E+08 4.536642E+08 %cxline - vtor.gt.vion; vtor,vion = 1.247576E+08 1.204900E+08 %cxline - vtor.gt.vion; vtor,vion = 1.673858E+08 1.673188E+08 %cxline - vtor.gt.vion; vtor,vion = 2.505166E+08 2.494285E+08 %cxline - vtor.gt.vion; vtor,vion = 2.469338E+08 2.450427E+08 %cxline - vtor.gt.vion; vtor,vion = 4.515356E+08 4.489039E+08 %cxline - vtor.gt.vion; vtor,vion = 3.576281E+08 3.573606E+08 %cxline - vtor.gt.vion; vtor,vion = 4.106755E+08 4.104248E+08 %cxline - vtor.gt.vion; vtor,vion = 2.798821E+08 2.748632E+08 %cxline - vtor.gt.vion; vtor,vion = 3.742108E+08 3.734924E+08 %cxline - vtor.gt.vion; vtor,vion = 2.585368E+08 2.577170E+08 %cxline - vtor.gt.vion; vtor,vion = 2.082778E+08 2.071906E+08 %cxline - vtor.gt.vion; vtor,vion = 2.086528E+08 2.071906E+08 %cxline - vtor.gt.vion; vtor,vion = 6.258978E+08 6.204018E+08 %cxline - vtor.gt.vion; vtor,vion = 6.265155E+08 6.204018E+08 %cxline - vtor.gt.vion; vtor,vion = 4.639408E+08 4.631968E+08 %cxline - vtor.gt.vion; vtor,vion = 1.981232E+08 1.974045E+08 %cxline - vtor.gt.vion; vtor,vion = 1.974730E+08 1.974045E+08 %cxline - vtor.gt.vion; vtor,vion = 5.350744E+07 4.833376E+07 %cxline - vtor.gt.vion; vtor,vion = 5.356906E+07 4.833376E+07 %cxline - vtor.gt.vion; vtor,vion = 5.918165E+08 5.910926E+08 %cxline - vtor.gt.vion; vtor,vion = 5.911160E+08 5.910926E+08 %cxline - vtor.gt.vion; vtor,vion = 2.051879E+08 2.039489E+08 %cxline - vtor.gt.vion; vtor,vion = 9.271782E+07 9.266985E+07 %cxline - vtor.gt.vion; vtor,vion = 2.470577E+08 2.411346E+08 %cxline - vtor.gt.vion; vtor,vion = 2.283586E+08 2.280678E+08 %cxline - vtor.gt.vion; vtor,vion = 2.895083E+08 2.891993E+08 %cxline - vtor.gt.vion; vtor,vion = 1.984284E+08 1.903727E+08 %cxline - vtor.gt.vion; vtor,vion = 1.952167E+08 1.903727E+08 %cxline - vtor.gt.vion; vtor,vion = 1.405435E+08 1.401473E+08 %cxline - vtor.gt.vion; vtor,vion = 1.691012E+08 1.689798E+08 %cxline - vtor.gt.vion; vtor,vion = 4.963194E+08 4.897864E+08 %cxline - vtor.gt.vion; vtor,vion = 3.367544E+08 3.338914E+08 %cxline - vtor.gt.vion; vtor,vion = 2.758291E+08 2.731829E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 38 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 88 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 103 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0196E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0250E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0234E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0137E+00 %orball: in processor 0: orbit # iorb= 226 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 244 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 1577 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 172 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13369384.5004731 a. %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... %note: constrained curt @ bdy to: 13369384.5004731 a. %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... %note: constrained curt @ bdy to: 13369384.5004731 a. nbstart... %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3320 - 0 (killed) + 13140 (dep) = 16460 ptcls. %depall specie #2 -> 1470 - 0 (killed) + 14728 (dep) = 16198 ptcls. %depall specie #3 -> 2167 - 0 (killed) + 14162 (dep) = 16329 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 49 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.260471E+08 1.223317E+08 %cxline - vtor.gt.vion; vtor,vion = 2.709215E+08 2.707714E+08 %cxline - vtor.gt.vion; vtor,vion = 1.198901E+08 1.172739E+08 %cxline - vtor.gt.vion; vtor,vion = 1.184492E+08 1.172739E+08 %cxline - vtor.gt.vion; vtor,vion = 1.721172E+08 1.716046E+08 %cxline - vtor.gt.vion; vtor,vion = 1.443057E+08 1.436890E+08 %cxline - vtor.gt.vion; vtor,vion = 2.430773E+08 2.429328E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %cxline - vtor.gt.vion; vtor,vion = 4.819755E+08 4.789848E+08 %cxline - vtor.gt.vion; vtor,vion = 1.959863E+08 1.953404E+08 %cxline - vtor.gt.vion; vtor,vion = 4.880850E+08 4.869311E+08 %cxline - vtor.gt.vion; vtor,vion = 2.298064E+08 2.286305E+08 %cxline - vtor.gt.vion; vtor,vion = 2.778695E+08 2.777726E+08 %orball: in processor 0: orbit # iorb= 1357 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.892657E+08 5.880637E+08 %cxline - vtor.gt.vion; vtor,vion = 5.881509E+08 5.880637E+08 %cxline - vtor.gt.vion; vtor,vion = 3.120515E+08 3.112440E+08 %cxline - vtor.gt.vion; vtor,vion = 4.509120E+08 4.397064E+08 %cxline - vtor.gt.vion; vtor,vion = 3.458898E+08 3.454767E+08 %cxline - vtor.gt.vion; vtor,vion = 4.527524E+08 4.510193E+08 %cxline - vtor.gt.vion; vtor,vion = 1.308188E+08 1.304813E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orball: in processor 0: orbit # iorb= 93 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orball: in processor 0: orbit # iorb= 100 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orball: in processor 0: orbit # iorb= 134 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 142 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orball: in processor 0: orbit # iorb= 148 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 orball exited 0 orball exited 0 orball exited 0 nbfinish... entering outptb2 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 173 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13355786.0003295 a. %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... %note: constrained curt @ bdy to: 13355786.0003295 a. %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... %note: constrained curt @ bdy to: 13355786.0003295 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3484 - 0 (killed) + 12999 (dep) = 16483 ptcls. %depall specie #2 -> 1518 - 0 (killed) + 14684 (dep) = 16202 ptcls. %depall specie #3 -> 2270 - 0 (killed) + 14065 (dep) = 16335 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.080827E+08 1.076955E+08 %cxline - vtor.gt.vion; vtor,vion = 1.492262E+08 1.468523E+08 %cxline - vtor.gt.vion; vtor,vion = 1.889536E+08 1.884953E+08 %cxline - vtor.gt.vion; vtor,vion = 1.968869E+08 1.922682E+08 %cxline - vtor.gt.vion; vtor,vion = 1.678521E+08 1.644078E+08 %cxline - vtor.gt.vion; vtor,vion = 3.031205E+08 3.029684E+08 %cxline - vtor.gt.vion; vtor,vion = 1.112973E+08 1.066476E+08 %cxline - vtor.gt.vion; vtor,vion = 6.346949E+08 6.304993E+08 %cxline - vtor.gt.vion; vtor,vion = 6.349837E+08 6.304993E+08 %cxline - vtor.gt.vion; vtor,vion = 2.473032E+08 2.472412E+08 %cxline - vtor.gt.vion; vtor,vion = 2.479682E+08 2.472412E+08 %cxline - vtor.gt.vion; vtor,vion = 3.004825E+08 2.969733E+08 %cxline - vtor.gt.vion; vtor,vion = 5.495903E+08 5.425069E+08 %cxline - vtor.gt.vion; vtor,vion = 5.473750E+08 5.425069E+08 %cxline - vtor.gt.vion; vtor,vion = 2.851521E+08 2.837881E+08 %cxline - vtor.gt.vion; vtor,vion = 3.076332E+08 3.075341E+08 %cxline - vtor.gt.vion; vtor,vion = 1.169430E+08 1.117407E+08 %cxline - vtor.gt.vion; vtor,vion = 3.004756E+08 3.004450E+08 %cxline - vtor.gt.vion; vtor,vion = 3.379599E+08 3.370498E+08 %cxline - vtor.gt.vion; vtor,vion = 5.682058E+08 5.679059E+08 %cxline - vtor.gt.vion; vtor,vion = 2.034108E+08 2.027488E+08 %cxline - vtor.gt.vion; vtor,vion = 2.242672E+08 2.242371E+08 %orball: in processor 0: orbit # iorb= 1846 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.950137E+08 3.926005E+08 %cxline - vtor.gt.vion; vtor,vion = 2.056797E+08 2.047370E+08 %cxline - vtor.gt.vion; vtor,vion = 3.955258E+08 3.940965E+08 %cxline - vtor.gt.vion; vtor,vion = 3.868844E+08 3.790740E+08 %cxline - vtor.gt.vion; vtor,vion = 3.305496E+08 3.289389E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orball: in processor 0: orbit # iorb= 12 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orball: in processor 0: orbit # iorb= 13 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orball: in processor 0: orbit # iorb= 23 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orball: in processor 0: orbit # iorb= 62 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orball: in processor 0: orbit # iorb= 82 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orball: in processor 0: orbit # iorb= 125 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 154 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0200E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0185E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0199E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0144E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0156E+00 %orball: in processor 0: orbit # iorb= 72 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orball: in processor 0: orbit # iorb= 93 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orball: in processor 0: orbit # iorb= 119 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0152E+00 %orball: in processor 0: orbit # iorb= 201 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 174 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13338218.5580242 a. %note: constrained curt @ bdy to: 13338218.5580242 a. nbstart... %note: constrained curt @ bdy to: 13338218.5580242 a. %note: constrained curt @ bdy to: 13338218.5580242 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13338218.5580242 a. %note: constrained curt @ bdy to: 13338218.5580242 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13338218.5580242 a. nbstart... %note: constrained curt @ bdy to: 13338218.5580242 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3556 - 0 (killed) + 12916 (dep) = 16472 ptcls. %depall specie #2 -> 1545 - 0 (killed) + 14656 (dep) = 16201 ptcls. %depall specie #3 -> 2355 - 0 (killed) + 13985 (dep) = 16340 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.766235E+08 2.757625E+08 %cxline - vtor.gt.vion; vtor,vion = 4.251500E+08 4.093116E+08 %cxline - vtor.gt.vion; vtor,vion = 1.320808E+08 1.314359E+08 %cxline - vtor.gt.vion; vtor,vion = 9.193586E+07 9.128685E+07 %cxline - vtor.gt.vion; vtor,vion = 9.228401E+07 9.128685E+07 %cxline - vtor.gt.vion; vtor,vion = 1.838748E+08 1.838286E+08 %cxline - vtor.gt.vion; vtor,vion = 2.388429E+08 2.354473E+08 %cxline - vtor.gt.vion; vtor,vion = 3.229336E+08 3.190674E+08 %cxline - vtor.gt.vion; vtor,vion = 2.755753E+08 2.733729E+08 %cxline - vtor.gt.vion; vtor,vion = 2.017441E+08 2.016385E+08 %cxline - vtor.gt.vion; vtor,vion = 1.623168E+08 1.566039E+08 %cxline - vtor.gt.vion; vtor,vion = 1.951831E+08 1.936797E+08 %cxline - vtor.gt.vion; vtor,vion = 3.849086E+08 3.845732E+08 %cxline - vtor.gt.vion; vtor,vion = 5.472296E+08 5.453496E+08 %orball: in processor 0: orbit # iorb= 1042 never inside plasma. %orball: in processor 0: orbit # iorb= 1067 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.591898E+08 2.589242E+08 %cxline - vtor.gt.vion; vtor,vion = 2.754098E+08 2.749965E+08 %cxline - vtor.gt.vion; vtor,vion = 3.594314E+08 3.547822E+08 %cxline - vtor.gt.vion; vtor,vion = 1.244911E+08 1.237713E+08 %cxline - vtor.gt.vion; vtor,vion = 1.720162E+08 1.676258E+08 %cxline - vtor.gt.vion; vtor,vion = 9.679179E+07 9.629070E+07 %cxline - vtor.gt.vion; vtor,vion = 5.182993E+08 5.164155E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 9 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 23 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 47 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orball: in processor 0: orbit # iorb= 99 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %orball: in processor 0: orbit # iorb= 135 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 146 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 158 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 179 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0182E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orball: in processor 0: orbit # iorb= 65 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orball: in processor 0: orbit # iorb= 106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orball: in processor 0: orbit # iorb= 214 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0195E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 7 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 175 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13325134.1703807 a. %note: constrained curt @ bdy to: 13325134.1703807 a. %note: constrained curt @ bdy to: 13325134.1703807 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13325134.1703807 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13325134.1703807 a. nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbstart... %note: constrained curt @ bdy to: 13325134.1703807 a. nbstart... %note: constrained curt @ bdy to: 13325134.1703807 a. nbstart... %note: constrained curt @ bdy to: 13325134.1703807 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3790 - 0 (killed) + 12210 (dep) = 16000 ptcls. %depall specie #2 -> 1610 - 0 (killed) + 14390 (dep) = 16000 ptcls. %depall specie #3 -> 2451 - 0 (killed) + 13549 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 5.067527E+08 5.061596E+08 %cxline - vtor.gt.vion; vtor,vion = 3.462299E+08 3.359327E+08 %cxline - vtor.gt.vion; vtor,vion = 2.977057E+08 2.895489E+08 %cxline - vtor.gt.vion; vtor,vion = 1.004452E+08 9.579549E+07 %cxline - vtor.gt.vion; vtor,vion = 1.391540E+08 1.388206E+08 %orball: in processor 0: orbit # iorb= 175 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.269082E+08 1.236531E+08 %cxline - vtor.gt.vion; vtor,vion = 1.320059E+08 1.236531E+08 %cxline - vtor.gt.vion; vtor,vion = 1.321218E+08 1.236531E+08 %cxline - vtor.gt.vion; vtor,vion = 1.171869E+08 1.170741E+08 %cxline - vtor.gt.vion; vtor,vion = 5.406411E+08 5.389011E+08 %cxline - vtor.gt.vion; vtor,vion = 3.985034E+08 3.883116E+08 %cxline - vtor.gt.vion; vtor,vion = 2.966793E+08 2.909702E+08 %cxline - vtor.gt.vion; vtor,vion = 1.437789E+08 1.425582E+08 %cxline - vtor.gt.vion; vtor,vion = 1.447895E+08 1.425582E+08 %cxline - vtor.gt.vion; vtor,vion = 1.512632E+08 1.425582E+08 %cxline - vtor.gt.vion; vtor,vion = 1.513190E+08 1.425582E+08 %cxline - vtor.gt.vion; vtor,vion = 1.448721E+08 1.424175E+08 %cxline - vtor.gt.vion; vtor,vion = 1.478092E+08 1.424175E+08 %cxline - vtor.gt.vion; vtor,vion = 1.549088E+08 1.424063E+08 %cxline - vtor.gt.vion; vtor,vion = 1.545060E+08 1.424063E+08 %cxline - vtor.gt.vion; vtor,vion = 1.437710E+08 1.425576E+08 %cxline - vtor.gt.vion; vtor,vion = 1.440029E+08 1.425576E+08 %orball: in processor 0: orbit # iorb= 379 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.505255E+08 1.425576E+08 %cxline - vtor.gt.vion; vtor,vion = 1.494481E+08 1.425576E+08 %orball: in processor 0: orbit # iorb= 380 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 6.840018E+07 6.529449E+07 %cxline - vtor.gt.vion; vtor,vion = 8.974628E+07 8.748836E+07 %cxline - vtor.gt.vion; vtor,vion = 9.073370E+07 8.748836E+07 %cxline - vtor.gt.vion; vtor,vion = 1.423800E+08 1.420883E+08 %cxline - vtor.gt.vion; vtor,vion = 1.324271E+08 1.316889E+08 %cxline - vtor.gt.vion; vtor,vion = 2.207879E+08 2.160077E+08 %cxline - vtor.gt.vion; vtor,vion = 2.176242E+08 2.160077E+08 %cxline - vtor.gt.vion; vtor,vion = 8.599089E+07 8.460485E+07 %cxline - vtor.gt.vion; vtor,vion = 1.838865E+08 1.835379E+08 %cxline - vtor.gt.vion; vtor,vion = 3.875248E+08 3.834793E+08 %cxline - vtor.gt.vion; vtor,vion = 1.974552E+08 1.973495E+08 %cxline - vtor.gt.vion; vtor,vion = 1.791064E+08 1.780530E+08 %cxline - vtor.gt.vion; vtor,vion = 1.797150E+08 1.780530E+08 %cxline - vtor.gt.vion; vtor,vion = 1.820819E+08 1.815417E+08 %cxline - vtor.gt.vion; vtor,vion = 3.624704E+08 3.621957E+08 %cxline - vtor.gt.vion; vtor,vion = 5.311934E+08 5.202307E+08 %cxline - vtor.gt.vion; vtor,vion = 3.949389E+08 3.858160E+08 %cxline - vtor.gt.vion; vtor,vion = 5.239506E+08 5.225764E+08 %cxline - vtor.gt.vion; vtor,vion = 1.767021E+08 1.765130E+08 %cxline - vtor.gt.vion; vtor,vion = 7.311565E+07 7.228796E+07 %cxline - vtor.gt.vion; vtor,vion = 3.507146E+08 3.490408E+08 %cxline - vtor.gt.vion; vtor,vion = 1.971962E+08 1.933890E+08 %cxline - vtor.gt.vion; vtor,vion = 1.351259E+08 1.321981E+08 %cxline - vtor.gt.vion; vtor,vion = 2.754327E+08 2.673769E+08 %cxline - vtor.gt.vion; vtor,vion = 4.603307E+08 4.391499E+08 %cxline - vtor.gt.vion; vtor,vion = 2.706731E+08 2.706401E+08 %cxline - vtor.gt.vion; vtor,vion = 1.345761E+08 1.343628E+08 %cxline - vtor.gt.vion; vtor,vion = 1.363751E+08 1.362947E+08 %cxline - vtor.gt.vion; vtor,vion = 1.311105E+08 1.290621E+08 %cxline - vtor.gt.vion; vtor,vion = 1.206274E+08 1.169544E+08 %cxline - vtor.gt.vion; vtor,vion = 2.772119E+08 2.768635E+08 %cxline - vtor.gt.vion; vtor,vion = 4.456099E+08 4.447743E+08 %cxline - vtor.gt.vion; vtor,vion = 2.687201E+08 2.685995E+08 %cxline - vtor.gt.vion; vtor,vion = 3.187479E+08 3.127012E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orball: in processor 0: orbit # iorb= 61 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 105 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orball: in processor 0: orbit # iorb= 123 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orball: in processor 0: orbit # iorb= 135 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orball: in processor 0: orbit # iorb= 141 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 157 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 182 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orball: in processor 0: orbit # iorb= 189 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 2 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 27 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0200E+00 %orball: in processor 0: orbit # iorb= 101 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 164 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 176 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13483301.6883198 a. %note: constrained curt @ bdy to: 13483301.6883198 a. nbstart... %note: constrained curt @ bdy to: 13483301.6883198 a. %note: constrained curt @ bdy to: 13483301.6883198 a. nbstart... %note: constrained curt @ bdy to: 13483301.6883198 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13483301.6883198 a. %note: constrained curt @ bdy to: 13483301.6883198 a. nbstart... %note: constrained curt @ bdy to: 13483301.6883198 a. nbstart... nbstart... %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3863 - 0 (killed) + 12137 (dep) = 16000 ptcls. %depall specie #2 -> 1415 - 0 (killed) + 14585 (dep) = 16000 ptcls. %depall specie #3 -> 2505 - 0 (killed) + 13495 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %orball: in processor 0: orbit # iorb= 67 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.621620E+08 2.615028E+08 %cxline - vtor.gt.vion; vtor,vion = 6.922964E+07 6.813568E+07 %cxline - vtor.gt.vion; vtor,vion = 1.992615E+08 1.958052E+08 %cxline - vtor.gt.vion; vtor,vion = 2.034234E+08 1.958052E+08 %cxline - vtor.gt.vion; vtor,vion = 1.854026E+08 1.818664E+08 %cxline - vtor.gt.vion; vtor,vion = 1.842529E+08 1.818664E+08 %cxline - vtor.gt.vion; vtor,vion = 5.143766E+07 4.646975E+07 %cxline - vtor.gt.vion; vtor,vion = 5.172792E+07 4.646975E+07 %cxline - vtor.gt.vion; vtor,vion = 2.102726E+08 2.091991E+08 %cxline - vtor.gt.vion; vtor,vion = 1.501666E+08 1.473704E+08 %cxline - vtor.gt.vion; vtor,vion = 9.921346E+07 9.719186E+07 %cxline - vtor.gt.vion; vtor,vion = 1.897813E+08 1.896640E+08 %cxline - vtor.gt.vion; vtor,vion = 2.672212E+08 2.668921E+08 %cxline - vtor.gt.vion; vtor,vion = 2.947363E+08 2.889614E+08 %cxline - vtor.gt.vion; vtor,vion = 1.029573E+08 1.009230E+08 %cxline - vtor.gt.vion; vtor,vion = 1.781159E+08 1.781062E+08 %cxline - vtor.gt.vion; vtor,vion = 1.438247E+08 1.433680E+08 %cxline - vtor.gt.vion; vtor,vion = 1.741057E+08 1.732943E+08 %cxline - vtor.gt.vion; vtor,vion = 1.198672E+08 1.129154E+08 %cxline - vtor.gt.vion; vtor,vion = 2.003543E+08 1.977423E+08 %cxline - vtor.gt.vion; vtor,vion = 1.059582E+08 1.034040E+08 %cxline - vtor.gt.vion; vtor,vion = 3.194497E+08 3.181164E+08 %cxline - vtor.gt.vion; vtor,vion = 2.373868E+08 2.303023E+08 %cxline - vtor.gt.vion; vtor,vion = 1.886959E+08 1.871616E+08 %cxline - vtor.gt.vion; vtor,vion = 2.545672E+08 2.511450E+08 %cxline - vtor.gt.vion; vtor,vion = 2.146600E+08 2.143267E+08 %cxline - vtor.gt.vion; vtor,vion = 1.927994E+08 1.920241E+08 %cxline - vtor.gt.vion; vtor,vion = 1.730961E+08 1.730445E+08 %cxline - vtor.gt.vion; vtor,vion = 1.298339E+08 1.261545E+08 %cxline - vtor.gt.vion; vtor,vion = 5.924746E+07 5.783918E+07 %cxline - vtor.gt.vion; vtor,vion = 6.460326E+07 5.731859E+07 %cxline - vtor.gt.vion; vtor,vion = 6.503080E+07 5.731859E+07 %cxline - vtor.gt.vion; vtor,vion = 4.971244E+07 4.846447E+07 %cxline - vtor.gt.vion; vtor,vion = 4.962348E+07 4.846447E+07 %cxline - vtor.gt.vion; vtor,vion = 2.486342E+08 2.485792E+08 %orball: in processor 0: orbit # iorb= 1729 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.455508E+08 2.455419E+08 %cxline - vtor.gt.vion; vtor,vion = 1.791532E+08 1.789216E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 69 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 139 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 156 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 76 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 177 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13588658.4524669 a. %note: constrained curt @ bdy to: 13588658.4524669 a. %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13588658.4524669 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3815 - 0 (killed) + 12185 (dep) = 16000 ptcls. %depall specie #2 -> 1285 - 0 (killed) + 14715 (dep) = 16000 ptcls. %depall specie #3 -> 2303 - 0 (killed) + 13697 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.894396E+08 1.892568E+08 %cxline - vtor.gt.vion; vtor,vion = 1.893067E+08 1.892568E+08 %cxline - vtor.gt.vion; vtor,vion = 3.125220E+08 3.123788E+08 %cxline - vtor.gt.vion; vtor,vion = 3.125112E+08 3.123788E+08 %cxline - vtor.gt.vion; vtor,vion = 1.272625E+08 1.270719E+08 %cxline - vtor.gt.vion; vtor,vion = 1.891142E+08 1.879486E+08 %cxline - vtor.gt.vion; vtor,vion = 1.975626E+08 1.960736E+08 %cxline - vtor.gt.vion; vtor,vion = 1.320365E+08 1.299807E+08 %cxline - vtor.gt.vion; vtor,vion = 3.143797E+08 3.129873E+08 %cxline - vtor.gt.vion; vtor,vion = 2.904721E+08 2.888986E+08 %cxline - vtor.gt.vion; vtor,vion = 8.916284E+07 8.893015E+07 %cxline - vtor.gt.vion; vtor,vion = 8.927655E+07 8.893015E+07 %cxline - vtor.gt.vion; vtor,vion = 8.395748E+07 8.336855E+07 %cxline - vtor.gt.vion; vtor,vion = 8.380296E+07 8.336855E+07 %cxline - vtor.gt.vion; vtor,vion = 1.193039E+08 1.189505E+08 %cxline - vtor.gt.vion; vtor,vion = 1.814330E+08 1.733894E+08 %cxline - vtor.gt.vion; vtor,vion = 1.804888E+08 1.733894E+08 %cxline - vtor.gt.vion; vtor,vion = 1.741390E+08 1.731172E+08 %cxline - vtor.gt.vion; vtor,vion = 1.750733E+08 1.731172E+08 %cxline - vtor.gt.vion; vtor,vion = 2.570536E+08 2.569069E+08 %cxline - vtor.gt.vion; vtor,vion = 2.580876E+08 2.569069E+08 %cxline - vtor.gt.vion; vtor,vion = 1.398595E+08 1.389938E+08 %cxline - vtor.gt.vion; vtor,vion = 1.950526E+08 1.938439E+08 %cxline - vtor.gt.vion; vtor,vion = 1.059180E+08 1.020857E+08 %cxline - vtor.gt.vion; vtor,vion = 6.268336E+07 6.178723E+07 %cxline - vtor.gt.vion; vtor,vion = 2.009515E+08 1.947945E+08 %cxline - vtor.gt.vion; vtor,vion = 1.996218E+08 1.947945E+08 %cxline - vtor.gt.vion; vtor,vion = 1.316162E+08 1.298343E+08 %cxline - vtor.gt.vion; vtor,vion = 2.569221E+08 2.490350E+08 %cxline - vtor.gt.vion; vtor,vion = 1.275097E+08 1.272791E+08 %cxline - vtor.gt.vion; vtor,vion = 2.253382E+08 2.251432E+08 %cxline - vtor.gt.vion; vtor,vion = 1.170085E+08 1.162200E+08 %cxline - vtor.gt.vion; vtor,vion = 1.453875E+08 1.432452E+08 %cxline - vtor.gt.vion; vtor,vion = 1.694631E+08 1.685328E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0133E+00 %orball: in processor 0: orbit # iorb= 61 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 169 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0165E+00 %orball: in processor 0: orbit # iorb= 233 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 178 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13726224.3886306 a. %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13726224.3886306 a. nbstart... %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3505 - 0 (killed) + 12495 (dep) = 16000 ptcls. %depall specie #2 -> 1084 - 0 (killed) + 14916 (dep) = 16000 ptcls. %depall specie #3 -> 2010 - 0 (killed) + 13990 (dep) = 16000 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.160609E+08 1.158377E+08 %cxline - vtor.gt.vion; vtor,vion = 2.621771E+08 2.616023E+08 %cxline - vtor.gt.vion; vtor,vion = 2.058035E+08 2.045614E+08 %cxline - vtor.gt.vion; vtor,vion = 2.207127E+08 2.200193E+08 %cxline - vtor.gt.vion; vtor,vion = 8.659460E+07 8.605708E+07 %cxline - vtor.gt.vion; vtor,vion = 1.891902E+08 1.887906E+08 %cxline - vtor.gt.vion; vtor,vion = 2.908868E+08 2.897975E+08 %cxline - vtor.gt.vion; vtor,vion = 1.564408E+08 1.528786E+08 %cxline - vtor.gt.vion; vtor,vion = 1.528934E+08 1.525157E+08 %cxline - vtor.gt.vion; vtor,vion = 9.418089E+07 9.231449E+07 %cxline - vtor.gt.vion; vtor,vion = 1.989408E+08 1.986326E+08 %cxline - vtor.gt.vion; vtor,vion = 6.504977E+08 6.494941E+08 %cxline - vtor.gt.vion; vtor,vion = 2.540686E+08 2.537791E+08 %cxline - vtor.gt.vion; vtor,vion = 1.039503E+08 1.037898E+08 %cxline - vtor.gt.vion; vtor,vion = 1.040214E+08 1.034101E+08 %cxline - vtor.gt.vion; vtor,vion = 1.034168E+08 1.034101E+08 %cxline - vtor.gt.vion; vtor,vion = 1.869722E+08 1.846800E+08 %cxline - vtor.gt.vion; vtor,vion = 3.285295E+08 3.246144E+08 %cxline - vtor.gt.vion; vtor,vion = 2.823691E+08 2.803076E+08 %cxline - vtor.gt.vion; vtor,vion = 2.669767E+08 2.599425E+08 %cxline - vtor.gt.vion; vtor,vion = 2.667288E+08 2.646146E+08 %cxline - vtor.gt.vion; vtor,vion = 3.114035E+08 3.109199E+08 %cxline - vtor.gt.vion; vtor,vion = 2.247789E+08 2.244935E+08 %cxline - vtor.gt.vion; vtor,vion = 2.202955E+08 2.158493E+08 %cxline - vtor.gt.vion; vtor,vion = 1.563729E+08 1.562614E+08 %cxline - vtor.gt.vion; vtor,vion = 2.678187E+08 2.652154E+08 %cxline - vtor.gt.vion; vtor,vion = 2.717750E+08 2.654569E+08 %cxline - vtor.gt.vion; vtor,vion = 1.289814E+08 1.286682E+08 %cxline - vtor.gt.vion; vtor,vion = 1.378574E+08 1.349693E+08 %cxline - vtor.gt.vion; vtor,vion = 2.986485E+08 2.985472E+08 %cxline - vtor.gt.vion; vtor,vion = 1.688774E+08 1.639939E+08 %cxline - vtor.gt.vion; vtor,vion = 1.477219E+08 1.464381E+08 %cxline - vtor.gt.vion; vtor,vion = 1.454359E+08 1.454070E+08 %cxline - vtor.gt.vion; vtor,vion = 2.296404E+08 2.295986E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 179 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13619495.7235570 a. %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... %note: constrained curt @ bdy to: 13619495.7235570 a. %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... %note: constrained curt @ bdy to: 13619495.7235570 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3048 - 0 (killed) + 12952 (dep) = 16000 ptcls. %depall specie #2 -> 1092 - 0 (killed) + 14908 (dep) = 16000 ptcls. %depall specie #3 -> 1794 - 0 (killed) + 14206 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.406338E+08 2.386384E+08 %cxline - vtor.gt.vion; vtor,vion = 2.383291E+08 2.382674E+08 %cxline - vtor.gt.vion; vtor,vion = 1.713682E+08 1.700189E+08 %cxline - vtor.gt.vion; vtor,vion = 2.957262E+08 2.952345E+08 %cxline - vtor.gt.vion; vtor,vion = 8.553061E+07 8.439665E+07 %cxline - vtor.gt.vion; vtor,vion = 1.137488E+08 1.131662E+08 %cxline - vtor.gt.vion; vtor,vion = 1.386137E+08 1.364974E+08 %cxline - vtor.gt.vion; vtor,vion = 1.005281E+08 9.929868E+07 %cxline - vtor.gt.vion; vtor,vion = 1.411209E+08 1.408410E+08 %cxline - vtor.gt.vion; vtor,vion = 4.492501E+08 4.462523E+08 %cxline - vtor.gt.vion; vtor,vion = 2.113452E+08 2.101197E+08 %cxline - vtor.gt.vion; vtor,vion = 1.214631E+08 1.214524E+08 %cxline - vtor.gt.vion; vtor,vion = 1.184818E+08 1.182668E+08 %cxline - vtor.gt.vion; vtor,vion = 4.672639E+08 4.658032E+08 %cxline - vtor.gt.vion; vtor,vion = 4.665323E+08 4.658032E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %cxline - vtor.gt.vion; vtor,vion = 1.653452E+08 1.641472E+08 %cxline - vtor.gt.vion; vtor,vion = 2.707890E+08 2.699351E+08 %cxline - vtor.gt.vion; vtor,vion = 4.867757E+08 4.807962E+08 %cxline - vtor.gt.vion; vtor,vion = 4.833714E+08 4.807962E+08 %cxline - vtor.gt.vion; vtor,vion = 2.318368E+08 2.315963E+08 %cxline - vtor.gt.vion; vtor,vion = 2.316772E+08 2.315963E+08 %cxline - vtor.gt.vion; vtor,vion = 5.466527E+08 5.446707E+08 %cxline - vtor.gt.vion; vtor,vion = 2.023816E+08 1.997678E+08 %cxline - vtor.gt.vion; vtor,vion = 1.370862E+08 1.324819E+08 %cxline - vtor.gt.vion; vtor,vion = 1.349547E+08 1.324819E+08 %cxline - vtor.gt.vion; vtor,vion = 2.670075E+08 2.624854E+08 %cxline - vtor.gt.vion; vtor,vion = 2.233033E+08 2.219048E+08 %cxline - vtor.gt.vion; vtor,vion = 1.495250E+08 1.486277E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orball: in processor 0: orbit # iorb= 97 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 126 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 133 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0247E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 180 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13537910.5647387 a. %note: constrained curt @ bdy to: 13537910.5647387 a. %note: constrained curt @ bdy to: 13537910.5647387 a. %note: constrained curt @ bdy to: 13537910.5647387 a. nbstart... nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13537910.5647387 a. %note: constrained curt @ bdy to: 13537910.5647387 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13537910.5647387 a. nbstart... %note: constrained curt @ bdy to: 13537910.5647387 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2815 - 0 (killed) + 14051 (dep) = 16866 ptcls. %depall specie #2 -> 978 - 0 (killed) + 15360 (dep) = 16338 ptcls. %depall specie #3 -> 1590 - 0 (killed) + 15027 (dep) = 16617 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.081289E+08 1.043686E+08 %cxline - vtor.gt.vion; vtor,vion = 1.070810E+08 1.043686E+08 %cxline - vtor.gt.vion; vtor,vion = 9.905069E+07 9.465330E+07 %cxline - vtor.gt.vion; vtor,vion = 9.884539E+07 9.465330E+07 %cxline - vtor.gt.vion; vtor,vion = 9.929529E+07 9.291082E+07 %cxline - vtor.gt.vion; vtor,vion = 9.764771E+07 9.291082E+07 %cxline - vtor.gt.vion; vtor,vion = 3.679439E+08 3.671434E+08 %cxline - vtor.gt.vion; vtor,vion = 2.551640E+08 2.537668E+08 %cxline - vtor.gt.vion; vtor,vion = 2.256528E+08 2.247223E+08 %cxline - vtor.gt.vion; vtor,vion = 2.257624E+08 2.218332E+08 %orball: in processor 0: orbit # iorb= 542 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.290051E+08 2.264528E+08 %cxline - vtor.gt.vion; vtor,vion = 1.659665E+08 1.641388E+08 %cxline - vtor.gt.vion; vtor,vion = 1.730195E+08 1.724279E+08 %cxline - vtor.gt.vion; vtor,vion = 1.741253E+08 1.726524E+08 %cxline - vtor.gt.vion; vtor,vion = 1.440116E+08 1.422603E+08 %cxline - vtor.gt.vion; vtor,vion = 4.146461E+08 4.135388E+08 %cxline - vtor.gt.vion; vtor,vion = 2.721591E+08 2.704043E+08 %cxline - vtor.gt.vion; vtor,vion = 2.925075E+08 2.887641E+08 %cxline - vtor.gt.vion; vtor,vion = 2.763247E+08 2.760793E+08 %cxline - vtor.gt.vion; vtor,vion = 3.005469E+08 2.979542E+08 %cxline - vtor.gt.vion; vtor,vion = 2.068174E+08 1.985555E+08 %cxline - vtor.gt.vion; vtor,vion = 3.139727E+08 3.122653E+08 %cxline - vtor.gt.vion; vtor,vion = 2.343803E+08 2.343481E+08 %cxline - vtor.gt.vion; vtor,vion = 2.343631E+08 2.343481E+08 %cxline - vtor.gt.vion; vtor,vion = 2.295248E+08 2.294289E+08 %orball: in processor 0: orbit # iorb= 1079 never inside plasma. %orball: in processor 0: orbit # iorb= 1155 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.957962E+08 1.955057E+08 %cxline - vtor.gt.vion; vtor,vion = 1.877378E+08 1.868103E+08 %cxline - vtor.gt.vion; vtor,vion = 1.662354E+08 1.650798E+08 %cxline - vtor.gt.vion; vtor,vion = 2.170584E+08 2.158563E+08 %cxline - vtor.gt.vion; vtor,vion = 2.472874E+08 2.448163E+08 %cxline - vtor.gt.vion; vtor,vion = 2.464620E+08 2.448163E+08 %cxline - vtor.gt.vion; vtor,vion = 2.457739E+08 2.432148E+08 %cxline - vtor.gt.vion; vtor,vion = 2.465782E+08 2.432148E+08 %cxline - vtor.gt.vion; vtor,vion = 2.498224E+08 2.466457E+08 %cxline - vtor.gt.vion; vtor,vion = 2.518913E+08 2.466457E+08 %cxline - vtor.gt.vion; vtor,vion = 3.941245E+08 3.935520E+08 %cxline - vtor.gt.vion; vtor,vion = 2.709733E+08 2.683719E+08 %cxline - vtor.gt.vion; vtor,vion = 2.706426E+08 2.683719E+08 %cxline - vtor.gt.vion; vtor,vion = 5.307026E+08 5.273111E+08 %cxline - vtor.gt.vion; vtor,vion = 5.852078E+08 5.845932E+08 %cxline - vtor.gt.vion; vtor,vion = 1.851797E+08 1.845306E+08 %cxline - vtor.gt.vion; vtor,vion = 3.246492E+08 3.244210E+08 %cxline - vtor.gt.vion; vtor,vion = 2.969748E+08 2.929189E+08 %cxline - vtor.gt.vion; vtor,vion = 3.472790E+08 3.460489E+08 %cxline - vtor.gt.vion; vtor,vion = 1.762034E+08 1.761846E+08 %cxline - vtor.gt.vion; vtor,vion = 1.781958E+08 1.761846E+08 %cxline - vtor.gt.vion; vtor,vion = 7.714589E+08 7.667186E+08 %cxline - vtor.gt.vion; vtor,vion = 3.385593E+08 3.373384E+08 %cxline - vtor.gt.vion; vtor,vion = 3.379392E+08 3.373384E+08 %cxline - vtor.gt.vion; vtor,vion = 4.180636E+08 4.177756E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 36 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orball: in processor 0: orbit # iorb= 66 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orball: in processor 0: orbit # iorb= 28 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0192E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 1406 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0181E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 181 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13472613.0645377 a. %note: constrained curt @ bdy to: 13472613.0645377 a. %note: constrained curt @ bdy to: 13472613.0645377 a. %note: constrained curt @ bdy to: 13472613.0645377 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13472613.0645377 a. nbstart... %note: constrained curt @ bdy to: 13472613.0645377 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13472613.0645377 a. nbstart... %note: constrained curt @ bdy to: 13472613.0645377 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2897 - 0 (killed) + 13855 (dep) = 16752 ptcls. %depall specie #2 -> 1234 - 0 (killed) + 15093 (dep) = 16327 ptcls. %depall specie #3 -> 1801 - 0 (killed) + 14745 (dep) = 16546 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.082454E+08 3.011398E+08 %cxline - vtor.gt.vion; vtor,vion = 3.135004E+08 3.109516E+08 %cxline - vtor.gt.vion; vtor,vion = 1.559900E+08 1.558635E+08 %cxline - vtor.gt.vion; vtor,vion = 3.681970E+08 3.681859E+08 %cxline - vtor.gt.vion; vtor,vion = 2.425622E+08 2.422213E+08 %cxline - vtor.gt.vion; vtor,vion = 9.090516E+07 8.510729E+07 %cxline - vtor.gt.vion; vtor,vion = 9.128755E+07 8.510729E+07 %cxline - vtor.gt.vion; vtor,vion = 1.255343E+08 1.238850E+08 %cxline - vtor.gt.vion; vtor,vion = 1.289160E+08 1.238850E+08 %cxline - vtor.gt.vion; vtor,vion = 1.308198E+08 1.236698E+08 %cxline - vtor.gt.vion; vtor,vion = 1.294878E+08 1.236698E+08 %cxline - vtor.gt.vion; vtor,vion = 1.324469E+08 1.237176E+08 %cxline - vtor.gt.vion; vtor,vion = 1.333410E+08 1.237176E+08 %cxline - vtor.gt.vion; vtor,vion = 2.884703E+08 2.842438E+08 %cxline - vtor.gt.vion; vtor,vion = 3.138090E+08 3.111824E+08 %cxline - vtor.gt.vion; vtor,vion = 2.715307E+08 2.676584E+08 %cxline - vtor.gt.vion; vtor,vion = 2.785742E+08 2.763174E+08 %cxline - vtor.gt.vion; vtor,vion = 1.850667E+08 1.741882E+08 %cxline - vtor.gt.vion; vtor,vion = 1.850017E+08 1.741882E+08 %cxline - vtor.gt.vion; vtor,vion = 1.911362E+08 1.878138E+08 %cxline - vtor.gt.vion; vtor,vion = 2.322904E+08 2.322514E+08 %cxline - vtor.gt.vion; vtor,vion = 5.334908E+08 5.317151E+08 %cxline - vtor.gt.vion; vtor,vion = 5.345118E+08 5.317151E+08 %cxline - vtor.gt.vion; vtor,vion = 4.607814E+08 4.602775E+08 %cxline - vtor.gt.vion; vtor,vion = 2.246067E+08 2.241011E+08 %cxline - vtor.gt.vion; vtor,vion = 6.233133E+08 6.203820E+08 %cxline - vtor.gt.vion; vtor,vion = 3.148275E+08 3.137309E+08 %orball: in processor 0: orbit # iorb= 1802 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.544651E+08 1.516967E+08 %cxline - vtor.gt.vion; vtor,vion = 5.427528E+08 5.400912E+08 %cxline - vtor.gt.vion; vtor,vion = 2.381660E+08 2.377062E+08 %cxline - vtor.gt.vion; vtor,vion = 1.813947E+08 1.801151E+08 %cxline - vtor.gt.vion; vtor,vion = 2.807556E+08 2.805370E+08 %cxline - vtor.gt.vion; vtor,vion = 5.993245E+08 5.991018E+08 %cxline - vtor.gt.vion; vtor,vion = 6.780342E+08 6.765176E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orball: in processor 0: orbit # iorb= 70 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 89 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 93 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 117 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 131 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 144 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orball: in processor 0: orbit # iorb= 152 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0163E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0171E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0140E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orball: in processor 0: orbit # iorb= 26 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orball: in processor 0: orbit # iorb= 30 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0177E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 orball exited 0 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 2 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 182 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13433191.8717814 a. %note: constrained curt @ bdy to: 13433191.8717814 a. %note: constrained curt @ bdy to: 13433191.8717814 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13433191.8717814 a. nbstart... %note: constrained curt @ bdy to: 13433191.8717814 a. %note: constrained curt @ bdy to: 13433191.8717814 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13433191.8717814 a. nbstart... %note: constrained curt @ bdy to: 13433191.8717814 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2924 - 0 (killed) + 13678 (dep) = 16602 ptcls. %depall specie #2 -> 1361 - 0 (killed) + 14921 (dep) = 16282 ptcls. %depall specie #3 -> 1885 - 0 (killed) + 14554 (dep) = 16439 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.074939E+08 3.068892E+08 %cxline - vtor.gt.vion; vtor,vion = 7.580977E+07 7.531127E+07 %cxline - vtor.gt.vion; vtor,vion = 2.370329E+08 2.368161E+08 %cxline - vtor.gt.vion; vtor,vion = 4.426732E+08 4.408250E+08 %cxline - vtor.gt.vion; vtor,vion = 2.349042E+08 2.347713E+08 %orball: in processor 0: orbit # iorb= 406 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.745016E+08 1.717375E+08 %cxline - vtor.gt.vion; vtor,vion = 1.771742E+08 1.767633E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417541E+08 1.415744E+08 %cxline - vtor.gt.vion; vtor,vion = 1.417368E+08 1.415744E+08 %cxline - vtor.gt.vion; vtor,vion = 4.490302E+08 4.480190E+08 %cxline - vtor.gt.vion; vtor,vion = 3.917084E+08 3.832248E+08 %cxline - vtor.gt.vion; vtor,vion = 3.990287E+08 3.974706E+08 %cxline - vtor.gt.vion; vtor,vion = 3.270373E+08 3.252527E+08 %cxline - vtor.gt.vion; vtor,vion = 6.099009E+08 6.092889E+08 %cxline - vtor.gt.vion; vtor,vion = 9.312968E+07 9.123421E+07 %orball: in processor 0: orbit # iorb= 1704 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.373208E+08 5.359619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.818025E+08 2.802892E+08 %cxline - vtor.gt.vion; vtor,vion = 2.554377E+08 2.550488E+08 %cxline - vtor.gt.vion; vtor,vion = 2.797998E+08 2.773226E+08 %cxline - vtor.gt.vion; vtor,vion = 2.362652E+08 2.324050E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orball: in processor 0: orbit # iorb= 101 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0186E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0450E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0191E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 1755 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 183 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13404435.3634771 a. %note: constrained curt @ bdy to: 13404435.3634771 a. %note: constrained curt @ bdy to: 13404435.3634771 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13404435.3634771 a. %note: constrained curt @ bdy to: 13404435.3634771 a. nbstart... %note: constrained curt @ bdy to: 13404435.3634771 a. nbstart... %note: constrained curt @ bdy to: 13404435.3634771 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13404435.3634771 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3064 - 0 (killed) + 13473 (dep) = 16537 ptcls. %depall specie #2 -> 1396 - 0 (killed) + 14840 (dep) = 16236 ptcls. %depall specie #3 -> 2060 - 0 (killed) + 14342 (dep) = 16402 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 5.059340E+08 5.038931E+08 %cxline - vtor.gt.vion; vtor,vion = 1.387898E+08 1.386680E+08 %cxline - vtor.gt.vion; vtor,vion = 2.554872E+08 2.545678E+08 %cxline - vtor.gt.vion; vtor,vion = 1.929107E+08 1.902779E+08 %cxline - vtor.gt.vion; vtor,vion = 1.770487E+08 1.676814E+08 %cxline - vtor.gt.vion; vtor,vion = 1.746113E+08 1.676814E+08 %cxline - vtor.gt.vion; vtor,vion = 1.722765E+08 1.681954E+08 %cxline - vtor.gt.vion; vtor,vion = 1.700605E+08 1.681954E+08 %cxline - vtor.gt.vion; vtor,vion = 2.148406E+08 2.137257E+08 %cxline - vtor.gt.vion; vtor,vion = 1.261160E+08 1.249740E+08 %cxline - vtor.gt.vion; vtor,vion = 1.181942E+08 1.153136E+08 %cxline - vtor.gt.vion; vtor,vion = 1.848995E+08 1.843413E+08 %cxline - vtor.gt.vion; vtor,vion = 1.492276E+08 1.488980E+08 %cxline - vtor.gt.vion; vtor,vion = 4.789115E+08 4.761591E+08 %orball: in processor 0: orbit # iorb= 842 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.327666E+08 1.302128E+08 %cxline - vtor.gt.vion; vtor,vion = 2.355593E+08 2.344247E+08 %orball: in processor 0: orbit # iorb= 915 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.596604E+08 1.565834E+08 %cxline - vtor.gt.vion; vtor,vion = 3.158921E+08 3.151362E+08 %cxline - vtor.gt.vion; vtor,vion = 2.588681E+08 2.567794E+08 %cxline - vtor.gt.vion; vtor,vion = 6.151512E+08 6.116456E+08 %cxline - vtor.gt.vion; vtor,vion = 6.160960E+08 6.116456E+08 %cxline - vtor.gt.vion; vtor,vion = 2.814378E+08 2.809942E+08 %cxline - vtor.gt.vion; vtor,vion = 2.730734E+08 2.724520E+08 %cxline - vtor.gt.vion; vtor,vion = 1.377203E+08 1.375028E+08 %cxline - vtor.gt.vion; vtor,vion = 1.749607E+08 1.714499E+08 %cxline - vtor.gt.vion; vtor,vion = 1.433360E+08 1.399543E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orball: in processor 0: orbit # iorb= 62 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0242E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 60 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0160E+00 %orball: in processor 0: orbit # iorb= 85 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 114 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orball: in processor 0: orbit # iorb= 139 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 162 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 219 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0202E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 184 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13379574.7412165 a. %note: constrained curt @ bdy to: 13379574.7412165 a. %note: constrained curt @ bdy to: 13379574.7412165 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13379574.7412165 a. nbstart... %note: constrained curt @ bdy to: 13379574.7412165 a. nbstart... %note: constrained curt @ bdy to: 13379574.7412165 a. nbstart... %note: constrained curt @ bdy to: 13379574.7412165 a. %note: constrained curt @ bdy to: 13379574.7412165 a. nbstart... nbstart... %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3180 - 0 (killed) + 13296 (dep) = 16476 ptcls. %depall specie #2 -> 1350 - 0 (killed) + 14839 (dep) = 16189 ptcls. %depall specie #3 -> 2081 - 0 (killed) + 14250 (dep) = 16331 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.708040E+08 1.684524E+08 %orball: in processor 0: orbit # iorb= 310 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.438435E+08 2.422671E+08 %cxline - vtor.gt.vion; vtor,vion = 1.648840E+08 1.627396E+08 %cxline - vtor.gt.vion; vtor,vion = 2.753925E+08 2.743317E+08 %cxline - vtor.gt.vion; vtor,vion = 2.361139E+08 2.360823E+08 %cxline - vtor.gt.vion; vtor,vion = 1.897185E+08 1.835614E+08 %cxline - vtor.gt.vion; vtor,vion = 9.860468E+07 9.611848E+07 %cxline - vtor.gt.vion; vtor,vion = 9.049411E+07 8.832121E+07 %cxline - vtor.gt.vion; vtor,vion = 9.050760E+07 8.832121E+07 %cxline - vtor.gt.vion; vtor,vion = 3.561969E+08 3.559082E+08 %cxline - vtor.gt.vion; vtor,vion = 3.550510E+08 3.534140E+08 %cxline - vtor.gt.vion; vtor,vion = 3.544947E+08 3.534140E+08 %cxline - vtor.gt.vion; vtor,vion = 3.731201E+08 3.685881E+08 %cxline - vtor.gt.vion; vtor,vion = 4.585206E+08 4.421106E+08 %cxline - vtor.gt.vion; vtor,vion = 2.297061E+08 2.296482E+08 %cxline - vtor.gt.vion; vtor,vion = 2.299919E+08 2.292380E+08 %cxline - vtor.gt.vion; vtor,vion = 2.212175E+08 2.197392E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 1999 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 7 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 20 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orball: in processor 0: orbit # iorb= 54 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orball: in processor 0: orbit # iorb= 98 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0166E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orball: in processor 0: orbit # iorb= 121 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orball: in processor 0: orbit # iorb= 124 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orball: in processor 0: orbit # iorb= 125 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orball: in processor 0: orbit # iorb= 127 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0161E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0198E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0201E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 78 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0197E+00 %orball: in processor 0: orbit # iorb= 183 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0158E+00 %orball: in processor 0: orbit # iorb= 193 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 185 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... %note: constrained curt @ bdy to: 13365937.7897473 a. %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... %note: constrained curt @ bdy to: 13365937.7897473 a. %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... %note: constrained curt @ bdy to: 13365937.7897473 a. nbstart... nbstart... %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3375 - 0 (killed) + 13124 (dep) = 16499 ptcls. %depall specie #2 -> 1517 - 0 (killed) + 14705 (dep) = 16222 ptcls. %depall specie #3 -> 2179 - 0 (killed) + 14161 (dep) = 16340 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.952699E+08 2.943913E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599767E+08 1.553685E+08 %cxline - vtor.gt.vion; vtor,vion = 1.639471E+08 1.607607E+08 %cxline - vtor.gt.vion; vtor,vion = 2.582370E+08 2.559449E+08 %cxline - vtor.gt.vion; vtor,vion = 1.807298E+08 1.790558E+08 %cxline - vtor.gt.vion; vtor,vion = 1.831062E+08 1.829281E+08 %cxline - vtor.gt.vion; vtor,vion = 1.720935E+08 1.683678E+08 %cxline - vtor.gt.vion; vtor,vion = 5.593963E+08 5.586998E+08 %cxline - vtor.gt.vion; vtor,vion = 1.183920E+08 1.111102E+08 %cxline - vtor.gt.vion; vtor,vion = 1.175381E+08 1.111102E+08 %cxline - vtor.gt.vion; vtor,vion = 1.678635E+08 1.618713E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %cxline - vtor.gt.vion; vtor,vion = 5.409409E+08 5.389100E+08 %cxline - vtor.gt.vion; vtor,vion = 4.890345E+08 4.877586E+08 %cxline - vtor.gt.vion; vtor,vion = 1.612779E+08 1.596759E+08 %cxline - vtor.gt.vion; vtor,vion = 4.366144E+08 4.340506E+08 %cxline - vtor.gt.vion; vtor,vion = 4.371148E+08 4.340506E+08 %cxline - vtor.gt.vion; vtor,vion = 3.106842E+08 2.987029E+08 %cxline - vtor.gt.vion; vtor,vion = 2.854208E+08 2.852083E+08 %cxline - vtor.gt.vion; vtor,vion = 5.939734E+08 5.851937E+08 %cxline - vtor.gt.vion; vtor,vion = 5.865071E+08 5.851937E+08 %orball: in processor 0: orbit # iorb= 1612 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.724311E+08 2.723007E+08 %cxline - vtor.gt.vion; vtor,vion = 2.280025E+08 2.276857E+08 %cxline - vtor.gt.vion; vtor,vion = 2.191785E+08 2.191270E+08 %cxline - vtor.gt.vion; vtor,vion = 4.282705E+08 4.229541E+08 %cxline - vtor.gt.vion; vtor,vion = 2.775525E+08 2.767102E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orball: in processor 0: orbit # iorb= 36 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0159E+00 %orball: in processor 0: orbit # iorb= 43 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 44 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orball: in processor 0: orbit # iorb= 60 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0149E+00 %orball: in processor 0: orbit # iorb= 88 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orball: in processor 0: orbit # iorb= 155 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0125E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0136E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orball: in processor 0: orbit # iorb= 34 never inside plasma. %orball: in processor 0: orbit # iorb= 37 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orball: in processor 0: orbit # iorb= 63 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 1847 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0108E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 186 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13351773.8689023 a. %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... %note: constrained curt @ bdy to: 13351773.8689023 a. %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13351773.8689023 a. nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3433 - 0 (killed) + 13039 (dep) = 16472 ptcls. %depall specie #2 -> 1440 - 0 (killed) + 14748 (dep) = 16188 ptcls. %depall specie #3 -> 2258 - 0 (killed) + 14080 (dep) = 16338 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.040842E+08 2.040080E+08 %cxline - vtor.gt.vion; vtor,vion = 9.316674E+07 9.281281E+07 %cxline - vtor.gt.vion; vtor,vion = 3.198719E+08 3.195577E+08 %cxline - vtor.gt.vion; vtor,vion = 2.933895E+08 2.931450E+08 %cxline - vtor.gt.vion; vtor,vion = 8.564285E+07 8.498997E+07 %cxline - vtor.gt.vion; vtor,vion = 2.769972E+08 2.766879E+08 %cxline - vtor.gt.vion; vtor,vion = 2.729122E+08 2.724097E+08 %cxline - vtor.gt.vion; vtor,vion = 2.746178E+08 2.724097E+08 %cxline - vtor.gt.vion; vtor,vion = 2.746994E+08 2.727037E+08 %cxline - vtor.gt.vion; vtor,vion = 3.958712E+08 3.955401E+08 %cxline - vtor.gt.vion; vtor,vion = 3.832493E+08 3.818383E+08 %cxline - vtor.gt.vion; vtor,vion = 4.283181E+08 4.271794E+08 %cxline - vtor.gt.vion; vtor,vion = 4.794307E+08 4.780188E+08 %cxline - vtor.gt.vion; vtor,vion = 1.921585E+08 1.910906E+08 %cxline - vtor.gt.vion; vtor,vion = 1.815403E+08 1.788036E+08 %cxline - vtor.gt.vion; vtor,vion = 1.800735E+08 1.788036E+08 %cxline - vtor.gt.vion; vtor,vion = 2.260070E+08 2.229441E+08 %cxline - vtor.gt.vion; vtor,vion = 2.229716E+08 2.229441E+08 %cxline - vtor.gt.vion; vtor,vion = 4.240606E+08 4.233470E+08 %orball: in processor 0: orbit # iorb= 610 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.928556E+08 2.901966E+08 %cxline - vtor.gt.vion; vtor,vion = 3.404243E+08 3.400829E+08 %cxline - vtor.gt.vion; vtor,vion = 2.981352E+08 2.980276E+08 %cxline - vtor.gt.vion; vtor,vion = 2.668765E+08 2.661176E+08 %cxline - vtor.gt.vion; vtor,vion = 4.024606E+08 3.985752E+08 %cxline - vtor.gt.vion; vtor,vion = 3.676469E+08 3.675263E+08 %cxline - vtor.gt.vion; vtor,vion = 3.616306E+08 3.608532E+08 %orball: in processor 0: orbit # iorb= 1073 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.502976E+08 3.502816E+08 %cxline - vtor.gt.vion; vtor,vion = 5.089242E+08 5.084286E+08 %cxline - vtor.gt.vion; vtor,vion = 8.725983E+07 8.714846E+07 %cxline - vtor.gt.vion; vtor,vion = 2.730429E+08 2.649004E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 3 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orball: in processor 0: orbit # iorb= 51 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0206E+00 %orball: in processor 0: orbit # iorb= 79 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orball: in processor 0: orbit # iorb= 150 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0162E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0130E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0148E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0157E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 62 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orball: in processor 0: orbit # iorb= 108 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orball: in processor 0: orbit # iorb= 558 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 187 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13340816.0901009 a. %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %note: constrained curt @ bdy to: 13340816.0901009 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3553 - 0 (killed) + 12931 (dep) = 16484 ptcls. %depall specie #2 -> 1570 - 0 (killed) + 14645 (dep) = 16215 ptcls. %depall specie #3 -> 2320 - 0 (killed) + 14017 (dep) = 16337 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 3.599425E+08 3.599238E+08 %cxline - vtor.gt.vion; vtor,vion = 2.842721E+08 2.817172E+08 %orball: in processor 0: orbit # iorb= 120 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.959873E+08 1.924843E+08 %cxline - vtor.gt.vion; vtor,vion = 1.935383E+08 1.924843E+08 %cxline - vtor.gt.vion; vtor,vion = 1.977094E+08 1.932166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.941723E+08 1.932166E+08 %cxline - vtor.gt.vion; vtor,vion = 1.462240E+08 1.462159E+08 %cxline - vtor.gt.vion; vtor,vion = 1.899665E+08 1.883933E+08 %cxline - vtor.gt.vion; vtor,vion = 2.065077E+08 2.014998E+08 %cxline - vtor.gt.vion; vtor,vion = 2.630286E+08 2.607248E+08 %cxline - vtor.gt.vion; vtor,vion = 1.326576E+08 1.321912E+08 %cxline - vtor.gt.vion; vtor,vion = 2.930525E+08 2.922661E+08 %cxline - vtor.gt.vion; vtor,vion = 2.282289E+08 2.238812E+08 %orball: in processor 0: orbit # iorb= 429 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.202776E+08 1.190847E+08 %cxline - vtor.gt.vion; vtor,vion = 3.213812E+08 3.155738E+08 %cxline - vtor.gt.vion; vtor,vion = 1.784938E+08 1.753347E+08 %cxline - vtor.gt.vion; vtor,vion = 1.765213E+08 1.753347E+08 %cxline - vtor.gt.vion; vtor,vion = 2.921875E+08 2.919736E+08 %cxline - vtor.gt.vion; vtor,vion = 4.333169E+08 4.305289E+08 %orball: in processor 0: orbit # iorb= 784 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 5.944478E+08 5.839032E+08 %cxline - vtor.gt.vion; vtor,vion = 3.639695E+08 3.629740E+08 %cxline - vtor.gt.vion; vtor,vion = 2.903820E+08 2.877252E+08 %cxline - vtor.gt.vion; vtor,vion = 6.014047E+08 6.008133E+08 %cxline - vtor.gt.vion; vtor,vion = 6.018110E+08 6.008133E+08 %cxline - vtor.gt.vion; vtor,vion = 2.981233E+08 2.925848E+08 %cxline - vtor.gt.vion; vtor,vion = 2.413421E+08 2.408367E+08 %cxline - vtor.gt.vion; vtor,vion = 2.208838E+08 2.204571E+08 %cxline - vtor.gt.vion; vtor,vion = 2.207590E+08 2.204571E+08 %cxline - vtor.gt.vion; vtor,vion = 1.667786E+08 1.658994E+08 %cxline - vtor.gt.vion; vtor,vion = 3.687525E+08 3.684974E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orball: in processor 0: orbit # iorb= 14 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0213E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orball: in processor 0: orbit # iorb= 58 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orball: in processor 0: orbit # iorb= 116 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 151 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orball: in processor 0: orbit # iorb= 165 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orball: in processor 0: orbit # iorb= 201 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orball: in processor 0: orbit # iorb= 1222 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0247E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0141E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0206E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 158 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0105E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0151E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0146E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0155E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 nbfinish... orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 188 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13331749.1939536 a. %note: constrained curt @ bdy to: 13331749.1939536 a. %note: constrained curt @ bdy to: 13331749.1939536 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13331749.1939536 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13331749.1939536 a. nbstart... %note: constrained curt @ bdy to: 13331749.1939536 a. nbstart... %note: constrained curt @ bdy to: 13331749.1939536 a. %note: constrained curt @ bdy to: 13331749.1939536 a. nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3693 - 0 (killed) + 12820 (dep) = 16513 ptcls. %depall specie #2 -> 1588 - 0 (killed) + 14625 (dep) = 16213 ptcls. %depall specie #3 -> 2520 - 0 (killed) + 13867 (dep) = 16387 ptcls. depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.928169E+08 1.894105E+08 %cxline - vtor.gt.vion; vtor,vion = 1.933355E+08 1.894105E+08 %cxline - vtor.gt.vion; vtor,vion = 3.730733E+08 3.726704E+08 %cxline - vtor.gt.vion; vtor,vion = 3.142368E+08 3.136501E+08 %cxline - vtor.gt.vion; vtor,vion = 3.145176E+08 3.136501E+08 %cxline - vtor.gt.vion; vtor,vion = 1.537199E+08 1.534648E+08 %cxline - vtor.gt.vion; vtor,vion = 1.494069E+08 1.483087E+08 %cxline - vtor.gt.vion; vtor,vion = 1.509685E+08 1.484760E+08 %cxline - vtor.gt.vion; vtor,vion = 1.501211E+08 1.484760E+08 %cxline - vtor.gt.vion; vtor,vion = 1.761574E+08 1.755273E+08 %cxline - vtor.gt.vion; vtor,vion = 1.363918E+08 1.322793E+08 %cxline - vtor.gt.vion; vtor,vion = 1.359938E+08 1.322793E+08 %cxline - vtor.gt.vion; vtor,vion = 3.673125E+08 3.549500E+08 %cxline - vtor.gt.vion; vtor,vion = 3.298755E+08 3.265542E+08 %cxline - vtor.gt.vion; vtor,vion = 4.914428E+08 4.887892E+08 %cxline - vtor.gt.vion; vtor,vion = 4.952941E+08 4.887892E+08 %cxline - vtor.gt.vion; vtor,vion = 2.592730E+08 2.567510E+08 %cxline - vtor.gt.vion; vtor,vion = 2.124095E+08 2.120237E+08 %cxline - vtor.gt.vion; vtor,vion = 2.137360E+08 2.120237E+08 %cxline - vtor.gt.vion; vtor,vion = 4.284276E+08 4.278371E+08 %orball: in processor 0: orbit # iorb= 1154 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.163908E+08 2.155426E+08 %cxline - vtor.gt.vion; vtor,vion = 2.407325E+08 2.336289E+08 %cxline - vtor.gt.vion; vtor,vion = 6.049746E+08 6.019111E+08 %cxline - vtor.gt.vion; vtor,vion = 5.937634E+08 5.885375E+08 %cxline - vtor.gt.vion; vtor,vion = 5.948063E+08 5.885375E+08 %cxline - vtor.gt.vion; vtor,vion = 1.974030E+08 1.947160E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 50 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 52 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orball: in processor 0: orbit # iorb= 53 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 57 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0131E+00 %orball: in processor 0: orbit # iorb= 67 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orball: in processor 0: orbit # iorb= 75 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orball: in processor 0: orbit # iorb= 157 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0187E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0102E+00 %orball: in processor 0: orbit # iorb= 3 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orball: in processor 0: orbit # iorb= 183 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orball: in processor 0: orbit # iorb= 190 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orball: in processor 0: orbit # iorb= 284 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0147E+00 %orball: in processor 0: orbit # iorb= 306 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0164E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0058E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0194E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 orball exited 0 orball exited 0 nbfinish... orball exited 0 entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 189 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13316623.2978615 a. %note: constrained curt @ bdy to: 13316623.2978615 a. %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... %note: constrained curt @ bdy to: 13316623.2978615 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4007 - 0 (killed) + 11993 (dep) = 16000 ptcls. %depall specie #2 -> 1674 - 0 (killed) + 14326 (dep) = 16000 ptcls. %depall specie #3 -> 2558 - 0 (killed) + 13442 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... depall exited 0 orball... %cxline - vtor.gt.vion; vtor,vion = 1.423587E+08 1.395407E+08 %cxline - vtor.gt.vion; vtor,vion = 3.114582E+08 3.107053E+08 %cxline - vtor.gt.vion; vtor,vion = 2.760460E+08 2.758855E+08 %cxline - vtor.gt.vion; vtor,vion = 2.763775E+08 2.758855E+08 %cxline - vtor.gt.vion; vtor,vion = 2.435650E+08 2.423202E+08 %cxline - vtor.gt.vion; vtor,vion = 9.640674E+07 9.180018E+07 %cxline - vtor.gt.vion; vtor,vion = 2.633285E+08 2.620245E+08 %cxline - vtor.gt.vion; vtor,vion = 1.726938E+08 1.698524E+08 %cxline - vtor.gt.vion; vtor,vion = 1.928955E+08 1.907441E+08 %cxline - vtor.gt.vion; vtor,vion = 3.342417E+08 3.289411E+08 %cxline - vtor.gt.vion; vtor,vion = 8.147981E+07 8.143007E+07 %cxline - vtor.gt.vion; vtor,vion = 6.755018E+07 6.741672E+07 %cxline - vtor.gt.vion; vtor,vion = 7.304159E+07 7.267093E+07 %cxline - vtor.gt.vion; vtor,vion = 9.330344E+07 8.805929E+07 %cxline - vtor.gt.vion; vtor,vion = 9.217632E+07 8.805929E+07 %cxline - vtor.gt.vion; vtor,vion = 9.347096E+07 8.775741E+07 %cxline - vtor.gt.vion; vtor,vion = 9.370837E+07 8.775741E+07 %cxline - vtor.gt.vion; vtor,vion = 8.942458E+07 8.795282E+07 %cxline - vtor.gt.vion; vtor,vion = 8.932942E+07 8.795282E+07 %cxline - vtor.gt.vion; vtor,vion = 8.968054E+07 8.783222E+07 %cxline - vtor.gt.vion; vtor,vion = 8.977120E+07 8.783222E+07 %cxline - vtor.gt.vion; vtor,vion = 9.362703E+07 8.787843E+07 %cxline - vtor.gt.vion; vtor,vion = 9.430760E+07 8.787843E+07 %cxline - vtor.gt.vion; vtor,vion = 9.408399E+07 8.803746E+07 %cxline - vtor.gt.vion; vtor,vion = 9.496859E+07 8.803746E+07 %cxline - vtor.gt.vion; vtor,vion = 9.085012E+07 8.982786E+07 %cxline - vtor.gt.vion; vtor,vion = 3.265924E+08 3.260810E+08 %cxline - vtor.gt.vion; vtor,vion = 2.688053E+08 2.673684E+08 %cxline - vtor.gt.vion; vtor,vion = 3.712424E+08 3.699532E+08 %cxline - vtor.gt.vion; vtor,vion = 1.089694E+08 1.085538E+08 %cxline - vtor.gt.vion; vtor,vion = 1.161670E+08 1.096692E+08 %cxline - vtor.gt.vion; vtor,vion = 2.230660E+08 2.211409E+08 %cxline - vtor.gt.vion; vtor,vion = 2.021455E+08 2.016700E+08 %cxline - vtor.gt.vion; vtor,vion = 1.125197E+08 1.085660E+08 %cxline - vtor.gt.vion; vtor,vion = 1.109641E+08 1.085660E+08 %cxline - vtor.gt.vion; vtor,vion = 2.921964E+08 2.902886E+08 %cxline - vtor.gt.vion; vtor,vion = 1.793488E+08 1.792207E+08 %cxline - vtor.gt.vion; vtor,vion = 8.181565E+07 8.141034E+07 %cxline - vtor.gt.vion; vtor,vion = 1.424609E+08 1.417923E+08 %cxline - vtor.gt.vion; vtor,vion = 3.807023E+08 3.802293E+08 %cxline - vtor.gt.vion; vtor,vion = 2.650619E+08 2.649002E+08 %cxline - vtor.gt.vion; vtor,vion = 2.363444E+08 2.327382E+08 %cxline - vtor.gt.vion; vtor,vion = 4.637747E+08 4.618087E+08 %cxline - vtor.gt.vion; vtor,vion = 4.661800E+08 4.618087E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orball: in processor 0: orbit # iorb= 16 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0134E+00 %orball: in processor 0: orbit # iorb= 55 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0112E+00 %orball: in processor 0: orbit # iorb= 97 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orball: in processor 0: orbit # iorb= 116 never inside plasma. %orball: in processor 0: orbit # iorb= 132 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0190E+00 %orball: in processor 0: orbit # iorb= 166 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orball: in processor 0: orbit # iorb= 186 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0138E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0153E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 190 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13551550.3668449 a. %note: constrained curt @ bdy to: 13551550.3668449 a. %note: constrained curt @ bdy to: 13551550.3668449 a. %note: constrained curt @ bdy to: 13551550.3668449 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13551550.3668449 a. nbstart... %note: constrained curt @ bdy to: 13551550.3668449 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13551550.3668449 a. nbstart... %note: constrained curt @ bdy to: 13551550.3668449 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.631E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3905 - 0 (killed) + 12095 (dep) = 16000 ptcls. %depall specie #2 -> 1338 - 0 (killed) + 14662 (dep) = 16000 ptcls. %depall specie #3 -> 2562 - 0 (killed) + 13438 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.703423E+08 1.694464E+08 %cxline - vtor.gt.vion; vtor,vion = 4.457886E+07 4.343264E+07 %cxline - vtor.gt.vion; vtor,vion = 4.374678E+07 4.343264E+07 %cxline - vtor.gt.vion; vtor,vion = 1.782195E+08 1.777475E+08 %cxline - vtor.gt.vion; vtor,vion = 1.606611E+08 1.585271E+08 %cxline - vtor.gt.vion; vtor,vion = 1.797086E+08 1.755434E+08 %cxline - vtor.gt.vion; vtor,vion = 1.486663E+08 1.475833E+08 %cxline - vtor.gt.vion; vtor,vion = 1.985297E+08 1.968454E+08 %cxline - vtor.gt.vion; vtor,vion = 2.894674E+08 2.888782E+08 %cxline - vtor.gt.vion; vtor,vion = 1.712079E+08 1.690549E+08 %cxline - vtor.gt.vion; vtor,vion = 2.850245E+08 2.839673E+08 %cxline - vtor.gt.vion; vtor,vion = 2.497101E+08 2.430538E+08 %cxline - vtor.gt.vion; vtor,vion = 2.576480E+08 2.565284E+08 %cxline - vtor.gt.vion; vtor,vion = 1.199331E+08 1.146207E+08 %cxline - vtor.gt.vion; vtor,vion = 5.126399E+08 5.052168E+08 %cxline - vtor.gt.vion; vtor,vion = 1.243532E+08 1.243220E+08 %cxline - vtor.gt.vion; vtor,vion = 9.782654E+07 9.742354E+07 %cxline - vtor.gt.vion; vtor,vion = 2.946809E+08 2.922096E+08 %cxline - vtor.gt.vion; vtor,vion = 1.883254E+08 1.866392E+08 %cxline - vtor.gt.vion; vtor,vion = 5.711837E+07 5.662197E+07 %cxline - vtor.gt.vion; vtor,vion = 3.036925E+08 3.030408E+08 %cxline - vtor.gt.vion; vtor,vion = 1.098167E+08 1.070978E+08 %cxline - vtor.gt.vion; vtor,vion = 1.080614E+08 1.061469E+08 %cxline - vtor.gt.vion; vtor,vion = 1.063649E+08 1.061469E+08 %cxline - vtor.gt.vion; vtor,vion = 3.069091E+08 3.040399E+08 %cxline - vtor.gt.vion; vtor,vion = 5.512166E+07 5.509474E+07 %cxline - vtor.gt.vion; vtor,vion = 5.512015E+07 5.509474E+07 %cxline - vtor.gt.vion; vtor,vion = 1.667763E+08 1.665090E+08 %cxline - vtor.gt.vion; vtor,vion = 1.882054E+08 1.880742E+08 %cxline - vtor.gt.vion; vtor,vion = 1.229879E+08 1.229800E+08 %cxline - vtor.gt.vion; vtor,vion = 1.229884E+08 1.229800E+08 %cxline - vtor.gt.vion; vtor,vion = 1.381387E+08 1.368639E+08 %cxline - vtor.gt.vion; vtor,vion = 1.824956E+08 1.762562E+08 %cxline - vtor.gt.vion; vtor,vion = 2.857185E+08 2.820392E+08 %cxline - vtor.gt.vion; vtor,vion = 6.811565E+08 6.750479E+08 %cxline - vtor.gt.vion; vtor,vion = 6.768048E+08 6.750479E+08 %cxline - vtor.gt.vion; vtor,vion = 3.681877E+08 3.662042E+08 %cxline - vtor.gt.vion; vtor,vion = 2.868136E+08 2.857818E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 106 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orball: in processor 0: orbit # iorb= 245 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orball: in processor 0: orbit # iorb= 283 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 191 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13657354.6704604 a. %note: constrained curt @ bdy to: 13657354.6704604 a. %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13657354.6704604 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 4031 - 0 (killed) + 11969 (dep) = 16000 ptcls. %depall specie #2 -> 1371 - 0 (killed) + 14629 (dep) = 16000 ptcls. %depall specie #3 -> 2409 - 0 (killed) + 13591 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.192530E+08 2.165748E+08 %cxline - vtor.gt.vion; vtor,vion = 1.280842E+08 1.274041E+08 %cxline - vtor.gt.vion; vtor,vion = 1.278329E+08 1.274041E+08 %cxline - vtor.gt.vion; vtor,vion = 1.401203E+08 1.398828E+08 %cxline - vtor.gt.vion; vtor,vion = 1.399888E+08 1.398828E+08 %cxline - vtor.gt.vion; vtor,vion = 1.033203E+08 1.021657E+08 %cxline - vtor.gt.vion; vtor,vion = 8.001510E+07 7.855752E+07 %cxline - vtor.gt.vion; vtor,vion = 7.989542E+07 7.855752E+07 %cxline - vtor.gt.vion; vtor,vion = 8.001978E+07 7.855752E+07 %cxline - vtor.gt.vion; vtor,vion = 8.207462E+07 7.282719E+07 %cxline - vtor.gt.vion; vtor,vion = 8.307829E+07 7.282719E+07 %cxline - vtor.gt.vion; vtor,vion = 1.480170E+08 1.478428E+08 %cxline - vtor.gt.vion; vtor,vion = 2.113400E+08 2.106815E+08 %cxline - vtor.gt.vion; vtor,vion = 2.114920E+08 2.106815E+08 %cxline - vtor.gt.vion; vtor,vion = 3.716521E+08 3.684354E+08 %cxline - vtor.gt.vion; vtor,vion = 2.028938E+08 2.009721E+08 %cxline - vtor.gt.vion; vtor,vion = 2.592041E+08 2.560660E+08 %cxline - vtor.gt.vion; vtor,vion = 2.118344E+08 2.065482E+08 %cxline - vtor.gt.vion; vtor,vion = 2.132951E+08 2.116372E+08 %cxline - vtor.gt.vion; vtor,vion = 1.963403E+08 1.953662E+08 %cxline - vtor.gt.vion; vtor,vion = 2.608899E+08 2.606338E+08 %cxline - vtor.gt.vion; vtor,vion = 6.623600E+07 6.484362E+07 %cxline - vtor.gt.vion; vtor,vion = 8.776121E+07 8.737020E+07 %cxline - vtor.gt.vion; vtor,vion = 2.698488E+08 2.669564E+08 %cxline - vtor.gt.vion; vtor,vion = 2.661312E+08 2.636734E+08 %cxline - vtor.gt.vion; vtor,vion = 2.787866E+08 2.782379E+08 %cxline - vtor.gt.vion; vtor,vion = 1.003080E+08 9.660818E+07 %cxline - vtor.gt.vion; vtor,vion = 1.115912E+08 1.112817E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orball: in processor 0: orbit # iorb= 208 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0110E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0178E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 orball exited 0 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 192 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13707844.9919897 a. %note: constrained curt @ bdy to: 13707844.9919897 a. %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... %note: constrained curt @ bdy to: 13707844.9919897 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3569 - 0 (killed) + 12431 (dep) = 16000 ptcls. %depall specie #2 -> 1163 - 0 (killed) + 14837 (dep) = 16000 ptcls. %depall specie #3 -> 2104 - 0 (killed) + 13896 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.277075E+08 2.267902E+08 %cxline - vtor.gt.vion; vtor,vion = 6.954720E+07 6.598495E+07 %cxline - vtor.gt.vion; vtor,vion = 6.629492E+07 6.598495E+07 %cxline - vtor.gt.vion; vtor,vion = 7.275151E+07 6.378593E+07 %cxline - vtor.gt.vion; vtor,vion = 7.321169E+07 6.378593E+07 %cxline - vtor.gt.vion; vtor,vion = 7.473281E+07 6.598495E+07 %cxline - vtor.gt.vion; vtor,vion = 7.446576E+07 6.598495E+07 %cxline - vtor.gt.vion; vtor,vion = 1.700510E+08 1.669131E+08 %cxline - vtor.gt.vion; vtor,vion = 3.220212E+08 3.206203E+08 %cxline - vtor.gt.vion; vtor,vion = 1.783157E+08 1.775176E+08 %cxline - vtor.gt.vion; vtor,vion = 1.815235E+08 1.775204E+08 %cxline - vtor.gt.vion; vtor,vion = 1.799356E+08 1.775204E+08 %cxline - vtor.gt.vion; vtor,vion = 1.283741E+08 1.282856E+08 %cxline - vtor.gt.vion; vtor,vion = 1.252538E+08 1.207326E+08 %cxline - vtor.gt.vion; vtor,vion = 1.257204E+08 1.207326E+08 %cxline - vtor.gt.vion; vtor,vion = 1.272421E+08 1.222640E+08 %cxline - vtor.gt.vion; vtor,vion = 1.261469E+08 1.222640E+08 %cxline - vtor.gt.vion; vtor,vion = 1.203826E+08 1.165911E+08 %cxline - vtor.gt.vion; vtor,vion = 1.187665E+08 1.165911E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %cxline - vtor.gt.vion; vtor,vion = 3.099527E+08 3.097440E+08 %cxline - vtor.gt.vion; vtor,vion = 3.362292E+08 3.308443E+08 %cxline - vtor.gt.vion; vtor,vion = 2.540365E+08 2.526258E+08 %cxline - vtor.gt.vion; vtor,vion = 1.903274E+08 1.873743E+08 %cxline - vtor.gt.vion; vtor,vion = 1.033422E+08 1.031962E+08 %cxline - vtor.gt.vion; vtor,vion = 3.833317E+08 3.819619E+08 %cxline - vtor.gt.vion; vtor,vion = 2.154744E+08 2.150755E+08 %cxline - vtor.gt.vion; vtor,vion = 2.154628E+08 2.150755E+08 %cxline - vtor.gt.vion; vtor,vion = 2.439506E+08 2.437773E+08 %cxline - vtor.gt.vion; vtor,vion = 1.707193E+08 1.673898E+08 %cxline - vtor.gt.vion; vtor,vion = 3.638772E+08 3.635761E+08 %cxline - vtor.gt.vion; vtor,vion = 1.500693E+08 1.498525E+08 %cxline - vtor.gt.vion; vtor,vion = 3.782542E+08 3.665202E+08 %cxline - vtor.gt.vion; vtor,vion = 2.969948E+08 2.956449E+08 %cxline - vtor.gt.vion; vtor,vion = 2.270790E+08 2.253827E+08 %cxline - vtor.gt.vion; vtor,vion = 2.096651E+08 2.081819E+08 %cxline - vtor.gt.vion; vtor,vion = 2.244921E+08 2.171164E+08 %cxline - vtor.gt.vion; vtor,vion = 1.734653E+08 1.709885E+08 %cxline - vtor.gt.vion; vtor,vion = 1.654141E+08 1.621782E+08 %cxline - vtor.gt.vion; vtor,vion = 1.688846E+08 1.621782E+08 %cxline - vtor.gt.vion; vtor,vion = 9.895679E+07 9.699822E+07 %cxline - vtor.gt.vion; vtor,vion = 9.289749E+07 9.198217E+07 %cxline - vtor.gt.vion; vtor,vion = 9.270509E+07 9.198217E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orball: in processor 0: orbit # iorb= 34 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orball: in processor 0: orbit # iorb= 36 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0083E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0071E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0069E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0051E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0088E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0093E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 193 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13579612.3090915 a. %note: constrained curt @ bdy to: 13579612.3090915 a. %note: constrained curt @ bdy to: 13579612.3090915 a. %note: constrained curt @ bdy to: 13579612.3090915 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13579612.3090915 a. nbstart... %note: constrained curt @ bdy to: 13579612.3090915 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13579612.3090915 a. nbstart... %note: constrained curt @ bdy to: 13579612.3090915 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.630E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3074 - 0 (killed) + 12926 (dep) = 16000 ptcls. %depall specie #2 -> 1054 - 0 (killed) + 14946 (dep) = 16000 ptcls. %depall specie #3 -> 1842 - 0 (killed) + 14158 (dep) = 16000 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.569678E+08 2.533155E+08 %cxline - vtor.gt.vion; vtor,vion = 1.319725E+08 1.302143E+08 %cxline - vtor.gt.vion; vtor,vion = 1.345764E+08 1.302143E+08 %cxline - vtor.gt.vion; vtor,vion = 1.586036E+08 1.548953E+08 %cxline - vtor.gt.vion; vtor,vion = 1.612834E+08 1.581210E+08 %cxline - vtor.gt.vion; vtor,vion = 9.511166E+07 9.319597E+07 %cxline - vtor.gt.vion; vtor,vion = 4.247960E+07 3.821547E+07 %cxline - vtor.gt.vion; vtor,vion = 4.098342E+07 3.821547E+07 %cxline - vtor.gt.vion; vtor,vion = 2.031966E+08 2.027280E+08 %cxline - vtor.gt.vion; vtor,vion = 2.681815E+08 2.669130E+08 %cxline - vtor.gt.vion; vtor,vion = 2.536315E+08 2.528741E+08 %cxline - vtor.gt.vion; vtor,vion = 2.477364E+08 2.476499E+08 %cxline - vtor.gt.vion; vtor,vion = 1.982244E+08 1.981353E+08 %cxline - vtor.gt.vion; vtor,vion = 2.234966E+08 2.233850E+08 %cxline - vtor.gt.vion; vtor,vion = 3.803270E+08 3.719490E+08 %cxline - vtor.gt.vion; vtor,vion = 3.256739E+08 3.245031E+08 %cxline - vtor.gt.vion; vtor,vion = 3.016128E+08 2.917253E+08 %cxline - vtor.gt.vion; vtor,vion = 7.825822E+07 7.807351E+07 %cxline - vtor.gt.vion; vtor,vion = 2.904912E+08 2.878150E+08 %cxline - vtor.gt.vion; vtor,vion = 1.547196E+08 1.542965E+08 %cxline - vtor.gt.vion; vtor,vion = 7.897013E+07 7.556280E+07 %cxline - vtor.gt.vion; vtor,vion = 7.770437E+07 7.556280E+07 %cxline - vtor.gt.vion; vtor,vion = 2.631049E+08 2.533359E+08 %cxline - vtor.gt.vion; vtor,vion = 1.865229E+08 1.815400E+08 %cxline - vtor.gt.vion; vtor,vion = 1.837160E+08 1.815400E+08 %cxline - vtor.gt.vion; vtor,vion = 2.372696E+08 2.334494E+08 %cxline - vtor.gt.vion; vtor,vion = 3.735844E+08 3.683501E+08 %orball: in processor 0: orbit # iorb= 1408 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.665381E+08 1.659757E+08 %cxline - vtor.gt.vion; vtor,vion = 1.290893E+08 1.266032E+08 %cxline - vtor.gt.vion; vtor,vion = 2.525188E+08 2.523956E+08 %cxline - vtor.gt.vion; vtor,vion = 2.140874E+08 2.139194E+08 %orball: in processor 0: orbit # iorb= 1795 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.912541E+08 1.912464E+08 %cxline - vtor.gt.vion; vtor,vion = 1.329468E+08 1.305106E+08 %cxline - vtor.gt.vion; vtor,vion = 9.300467E+07 9.088338E+07 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orball: in processor 0: orbit # iorb= 92 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0150E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0135E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orball: in processor 0: orbit # iorb= 55 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0216E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0120E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0070E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0092E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0145E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 7 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 194 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13554259.6264852 a. %note: constrained curt @ bdy to: 13554259.6264852 a. %note: constrained curt @ bdy to: 13554259.6264852 a. nbstart... %note: constrained curt @ bdy to: 13554259.6264852 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13554259.6264852 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13554259.6264852 a. %note: constrained curt @ bdy to: 13554259.6264852 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13554259.6264852 a. nbstart... %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 3038 - 0 (killed) + 13660 (dep) = 16698 ptcls. %depall specie #2 -> 984 - 0 (killed) + 15270 (dep) = 16254 ptcls. %depall specie #3 -> 1783 - 0 (killed) + 14738 (dep) = 16521 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 2.184598E+08 2.150886E+08 %cxline - vtor.gt.vion; vtor,vion = 2.444965E+08 2.441417E+08 %cxline - vtor.gt.vion; vtor,vion = 2.384886E+08 2.384816E+08 %cxline - vtor.gt.vion; vtor,vion = 1.256699E+08 1.255024E+08 %cxline - vtor.gt.vion; vtor,vion = 2.549844E+08 2.473477E+08 %cxline - vtor.gt.vion; vtor,vion = 1.203265E+08 1.190291E+08 %cxline - vtor.gt.vion; vtor,vion = 4.472544E+08 4.460514E+08 %orball: in processor 0: orbit # iorb= 429 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.506438E+08 2.454438E+08 %cxline - vtor.gt.vion; vtor,vion = 9.333493E+07 9.272130E+07 %cxline - vtor.gt.vion; vtor,vion = 2.926284E+08 2.921270E+08 %cxline - vtor.gt.vion; vtor,vion = 2.711601E+08 2.710972E+08 %orball: in processor 0: orbit # iorb= 1272 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.241854E+08 3.197869E+08 %cxline - vtor.gt.vion; vtor,vion = 1.740750E+08 1.738480E+08 %cxline - vtor.gt.vion; vtor,vion = 4.283913E+08 4.278081E+08 %cxline - vtor.gt.vion; vtor,vion = 3.008178E+08 3.006065E+08 %cxline - vtor.gt.vion; vtor,vion = 3.797009E+08 3.796047E+08 %cxline - vtor.gt.vion; vtor,vion = 2.106961E+08 2.105836E+08 %orball: in processor 0: orbit # iorb= 1614 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 4.053571E+08 3.998306E+08 %cxline - vtor.gt.vion; vtor,vion = 1.464923E+08 1.449806E+08 %cxline - vtor.gt.vion; vtor,vion = 1.480085E+08 1.449806E+08 %cxline - vtor.gt.vion; vtor,vion = 2.534462E+08 2.530158E+08 %cxline - vtor.gt.vion; vtor,vion = 2.260875E+08 2.253324E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orball: in processor 0: orbit # iorb= 44 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orball: in processor 0: orbit # iorb= 77 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0100E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0128E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0052E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0049E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0127E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0094E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0122E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0095E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0106E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0065E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0055E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0126E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0066E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0090E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orball: in processor 0: orbit # iorb= 4 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orball: in processor 0: orbit # iorb= 64 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orball: in processor 0: orbit # iorb= 91 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orball: in processor 0: orbit # iorb= 110 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orball: in processor 0: orbit # iorb= 145 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0129E+00 %orball: in processor 0: orbit # iorb= 153 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0037E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0116E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 195 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13487769.6310501 a. %note: constrained curt @ bdy to: 13487769.6310501 a. %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... nbstart... %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... %note: constrained curt @ bdy to: 13487769.6310501 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2994 - 0 (killed) + 13729 (dep) = 16723 ptcls. %depall specie #2 -> 1117 - 0 (killed) + 15166 (dep) = 16283 ptcls. %depall specie #3 -> 1808 - 0 (killed) + 14714 (dep) = 16522 ptcls. depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 4.718066E+07 4.574141E+07 %cxline - vtor.gt.vion; vtor,vion = 4.826149E+07 4.574141E+07 %cxline - vtor.gt.vion; vtor,vion = 1.128513E+08 1.120587E+08 %cxline - vtor.gt.vion; vtor,vion = 5.257596E+08 5.096138E+08 %orball: in processor 0: orbit # iorb= 168 never inside plasma. %orball: in processor 0: orbit # iorb= 175 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 2.253104E+08 2.252125E+08 %cxline - vtor.gt.vion; vtor,vion = 1.987977E+08 1.929221E+08 %cxline - vtor.gt.vion; vtor,vion = 1.971589E+08 1.929221E+08 %cxline - vtor.gt.vion; vtor,vion = 1.860774E+08 1.853721E+08 %cxline - vtor.gt.vion; vtor,vion = 1.413524E+08 1.387599E+08 %cxline - vtor.gt.vion; vtor,vion = 2.520523E+08 2.519830E+08 %cxline - vtor.gt.vion; vtor,vion = 2.319808E+08 2.318424E+08 %cxline - vtor.gt.vion; vtor,vion = 2.253574E+08 2.233548E+08 %cxline - vtor.gt.vion; vtor,vion = 2.666167E+08 2.634560E+08 %cxline - vtor.gt.vion; vtor,vion = 1.875720E+08 1.869744E+08 %cxline - vtor.gt.vion; vtor,vion = 1.877179E+08 1.869744E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %cxline - vtor.gt.vion; vtor,vion = 6.591376E+07 5.956034E+07 %cxline - vtor.gt.vion; vtor,vion = 6.446217E+07 5.956034E+07 %cxline - vtor.gt.vion; vtor,vion = 6.718738E+07 6.033755E+07 %cxline - vtor.gt.vion; vtor,vion = 6.669238E+07 6.033755E+07 %cxline - vtor.gt.vion; vtor,vion = 1.628683E+08 1.616610E+08 %cxline - vtor.gt.vion; vtor,vion = 1.630687E+08 1.616610E+08 %cxline - vtor.gt.vion; vtor,vion = 2.963107E+08 2.961382E+08 %cxline - vtor.gt.vion; vtor,vion = 2.929711E+08 2.907824E+08 %cxline - vtor.gt.vion; vtor,vion = 3.997605E+08 3.942615E+08 %cxline - vtor.gt.vion; vtor,vion = 3.996402E+08 3.942615E+08 %cxline - vtor.gt.vion; vtor,vion = 4.215165E+08 4.205054E+08 %cxline - vtor.gt.vion; vtor,vion = 1.599660E+08 1.574003E+08 %cxline - vtor.gt.vion; vtor,vion = 1.574580E+08 1.574003E+08 %cxline - vtor.gt.vion; vtor,vion = 2.580904E+08 2.570120E+08 %orball: in processor 0: orbit # iorb= 1569 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.283997E+08 1.269693E+08 %cxline - vtor.gt.vion; vtor,vion = 1.304265E+08 1.269693E+08 %cxline - vtor.gt.vion; vtor,vion = 2.322592E+08 2.315876E+08 %orball: in processor 0: orbit # iorb= 1856 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 1.637930E+08 1.609337E+08 %cxline - vtor.gt.vion; vtor,vion = 5.369800E+08 5.367246E+08 %cxline - vtor.gt.vion; vtor,vion = 2.621680E+08 2.590789E+08 %orball: in processor 0: orbit # iorb= 2132 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orball: in processor 0: orbit # iorb= 32 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0124E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orball: in processor 0: orbit # iorb= 80 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0068E+00 %orball: in processor 0: orbit # iorb= 97 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0168E+00 %orball: in processor 0: orbit # iorb= 115 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0104E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0041E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0175E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0139E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0107E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0101E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0087E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0118E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0074E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0089E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0113E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0173E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0154E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0109E+00 %orball: in processor 0: orbit # iorb= 104 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0123E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0035E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0061E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0098E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orball: in processor 0: orbit # iorb= 423 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0099E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0030E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0121E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orball: in processor 0: orbit # iorb= 1001 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0062E+00 %orball: in processor 0: orbit # iorb= 1140 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0117E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0040E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0077E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0063E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0075E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 196 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 nbi_getprofiles ne*dvol sum (input): 6.9719E+22 nbi_getprofiles ne*dvol sum (ions): 6.9719E+22 %note: constrained curt @ bdy to: 13455562.4208713 a. %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... %note: constrained curt @ bdy to: 13455562.4208713 a. %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... nbstart... nbstart... %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... %note: constrained curt @ bdy to: 13455562.4208713 a. nbstart... %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_debug_nbi_ fld_state.cdf %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 %nbatom deposition model: lev_nbidep= 4 %nbatom deposition model: nsigexc= 1 depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 2991 - 0 (killed) + 13583 (dep) = 16574 ptcls. %depall specie #2 -> 1274 - 0 (killed) + 14975 (dep) = 16249 ptcls. %depall specie #3 -> 1836 - 0 (killed) + 14567 (dep) = 16403 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.vion; vtor,vion = 1.141385E+08 1.063948E+08 %cxline - vtor.gt.vion; vtor,vion = 2.780820E+08 2.750037E+08 %cxline - vtor.gt.vion; vtor,vion = 2.001150E+08 1.997265E+08 %cxline - vtor.gt.vion; vtor,vion = 2.013040E+08 1.997265E+08 %cxline - vtor.gt.vion; vtor,vion = 1.960434E+08 1.955782E+08 %cxline - vtor.gt.vion; vtor,vion = 2.893968E+08 2.881655E+08 %cxline - vtor.gt.vion; vtor,vion = 2.722112E+08 2.697473E+08 %cxline - vtor.gt.vion; vtor,vion = 1.031647E+08 1.017351E+08 %cxline - vtor.gt.vion; vtor,vion = 1.033750E+08 1.017351E+08 %cxline - vtor.gt.vion; vtor,vion = 5.561314E+08 5.542491E+08 %cxline - vtor.gt.vion; vtor,vion = 1.424916E+08 1.411324E+08 %cxline - vtor.gt.vion; vtor,vion = 1.449635E+08 1.449468E+08 %cxline - vtor.gt.vion; vtor,vion = 1.451084E+08 1.449468E+08 %cxline - vtor.gt.vion; vtor,vion = 3.085014E+08 3.081734E+08 %cxline - vtor.gt.vion; vtor,vion = 6.129278E+08 6.093592E+08 %cxline - vtor.gt.vion; vtor,vion = 6.136938E+08 6.093592E+08 %cxline - vtor.gt.vion; vtor,vion = 2.325558E+08 2.280982E+08 %cxline - vtor.gt.vion; vtor,vion = 2.487997E+08 2.486352E+08 %cxline - vtor.gt.vion; vtor,vion = 6.182081E+08 6.169139E+08 %orball: in processor 0: orbit # iorb= 1638 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.402321E+08 3.393385E+08 %cxline - vtor.gt.vion; vtor,vion = 4.465093E+08 4.461927E+08 %cxline - vtor.gt.vion; vtor,vion = 2.007544E+08 1.982308E+08 %cxline - vtor.gt.vion; vtor,vion = 1.995263E+08 1.982308E+08 %cxline - vtor.gt.vion; vtor,vion = 2.020728E+08 1.981324E+08 %cxline - vtor.gt.vion; vtor,vion = 2.003772E+08 1.981324E+08 %cxline - vtor.gt.vion; vtor,vion = 1.849838E+08 1.843208E+08 %orball: in processor 0: orbit # iorb= 1820 never inside plasma. %cxline - vtor.gt.vion; vtor,vion = 3.117180E+08 3.113314E+08 %cxline - vtor.gt.vion; vtor,vion = 2.293415E+08 2.278239E+08 %cxline - vtor.gt.vion; vtor,vion = 2.799357E+08 2.798698E+08 %cxline - vtor.gt.vion; vtor,vion = 2.029522E+08 2.010438E+08 %cxline - vtor.gt.vion; vtor,vion = 5.085239E+08 5.078097E+08 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orball: in processor 0: orbit # iorb= 83 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0132E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orball: in processor 0: orbit # iorb= 128 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0111E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0033E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0000E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0054E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0044E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0084E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0086E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0016E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0082E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0167E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0026E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0019E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0080E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0076E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0039E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0020E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0143E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0097E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0043E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0142E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0017E+00 %orball: in processor 0: orbit # iorb= 1331 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0096E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0060E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0197E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0013E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0183E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0064E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0036E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0078E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0056E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0057E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0091E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0005E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0119E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orball: in processor 0: orbit # iorb= 1 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0021E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0114E+00 %orball: in processor 0: orbit # iorb= 92 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0189E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0081E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0179E+00 %orball: in processor 0: orbit # iorb= 144 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0103E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0042E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0014E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orball: in processor 0: orbit # iorb= 225 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0046E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0072E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0038E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0079E+00 %orball: in processor 0: orbit # iorb= 396 never inside plasma. %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0024E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0015E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0115E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0047E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0050E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0028E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0160E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0032E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0059E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0073E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0022E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0006E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0004E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0029E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0002E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0018E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0025E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0067E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0048E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0085E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0053E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0011E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0012E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0007E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0034E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0023E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0003E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0009E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0045E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0031E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0001E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0010E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0027E+00 %orbit -- an orbit track is stuck entirely outside the plasma: min(xion)= 1.0008E+00 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 2 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 3 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 % nbi_states: fld_states write OK to filename: 00425I19_fi/00425I19_nbi_fld_st ate.cdf %nbi_states: cpu 2 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.637E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.636E+03 MB. trmpi_listener: service request "EXIT" on cpu# 6 trmpi_listener: service request "EXIT" on cpu# 5 trmpi_listener: service request "EXIT" on cpu# 4 trmpi_listener: service request "EXIT" on cpu# 7 trmpi_listener: service request "EXIT" on cpu# 3 trmpi_listener: service request "EXIT" on cpu# 1 trmpi_listener: service request "EXIT" on cpu# 2 trmpi_listener: service request "EXIT" on cpu# 29 trmpi_listener: service request "EXIT" on cpu# 18 trmpi_listener: service request "EXIT" on cpu# 19 trmpi_listener: service request "EXIT" on cpu# 21 trmpi_listener: service request "EXIT" on cpu# 20 trmpi_listener: service request "EXIT" on cpu# 14 trmpi_listener: service request "EXIT" on cpu# 23 trmpi_listener: service request "EXIT" on cpu# 25 trmpi_listener: service request "EXIT" on cpu# 26 trmpi_listener: service request "EXIT" on cpu# 31 trmpi_listener: service request "EXIT" on cpu# 9 trmpi_listener: service request "EXIT" on cpu# 22 trmpi_listener: service request "EXIT" on cpu# 24 trmpi_listener: service request "EXIT" on cpu# 30 trmpi_listener: service request "EXIT" on cpu# 13 trmpi_listener: service request "EXIT" on cpu# 28 trmpi_listener: service request "EXIT" on cpu# 27 trmpi_listener: service request "EXIT" on cpu# 8 trmpi_listener: service request "EXIT" on cpu# 10 trmpi_listener: service request "EXIT" on cpu# 15 trmpi_listener: service request "EXIT" on cpu# 11 trmpi_listener: service request "EXIT" on cpu# 16 trmpi_listener: service request "EXIT" on cpu# 12 trmpi_listener: service request "EXIT" on cpu# 17 ==>runtrx: TRANSP run successful ==========(runtrx)====================== ==========TRANSP output conversion====== date: Mon Jan 27 22:28:47 EST 2025 ( mccune001.pppl.gov ) ==========(runtrx)====================== srart tr_finish_mpi.pl false pppl.gov 00425I19 ST40 tr_finish_mpi.pl 00425I19 ST40 ---------------> starting: plotcon 00425I19 2025/01/27:22:28:48 %initcpl: MDS_CACHE enabled. %PoPlot -- reading .PLN files %POPLT2-- PROCESSING RUN 00425I19 SHOT NO. 425 EXPECT 648 SCALAR FCNS, 1096 PROFILE FCNS OF TIME "MF" FILE RECORD SIZE = 100 WORDS (FLOATING PT) dmg_datbuf_expand call from dmgini_sized: isize= 0 00425I19MF.PLN size = 695M %initcpl: MDS_CACHE enabled. [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 : Mon Jan 27 22:29:23 2025 build_date: call getenv build_date: call ufopen xshare_build.dat cdfcon: Transp common build date : Fri May 3 15:19:16 EDT Define Dimensions 12 define Scalar Fct 648 Define Multi Graphs 423 Write Profiles 1096 X 1 1 100 XB 2 2 100 THETA 3 7 80 RMJSYM 4 42 405 RMAJM 5 44 201 MCINDX 6 45 220 ILIM 7 47 70 XGRID_NPHI 8 482 6 RGRID 9 1016 51 ZGRID 10 1017 51 PSIRZ 11 1018 2601 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 153887 avg & max steps: 1.2135E-01 7.5268E-01 #decreasing steps: 285757 avg & max steps: 6.5352E-02 1.3298E-01 #zero steps: 498956 B_FIELD 12 1019 7803 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 270947 avg & max steps: 5.1923E-01 9.3831E+00 #decreasing steps: 1552285 avg & max steps: 9.0610E-02 2.7504E+00 #zero steps: 993290 read NF File : 649 648 Write Multigraph: 423 ...readback test of .CDF file... 2169 variables, 14 dimensions 15 att ...header check SUCCESSFUL; now check data. ...check profile data... plotcon: CDF files in /local/tr_xzhang/transp_compute/ST40/00425I19 /local/tr_xzhang/transp_compute/ST40/00425I19/00425I19.CDF /local/tr_xzhang/transp_compute/ST40/00425I19/00425I19PH.CDF %targz_pseq: no directory: 00425I19_replay (normal exit) %targz_solv: in /local/tr_xzhang/transp_compute/ST40/00425I19 on host mccune001 %targz_solv: no TGLF debug info found (normal exit) %targz_solv: no TGLF debug info found (normal exit) --------------->plotcon: normal exit. 2025/01/27:22:29:25 ==>runtrx: TRANSP postprocessing OK ==========(runtrx)====================== ==========TRANSP add to MDSplus ======== date: Mon Jan 27 22:29:25 EST 2025 ( mccune001.pppl.gov ) ==========(runtrx)====================== %mdsplot: call INITPL %initcpl: MDS_CACHE enabled. %mdsplot: call getenv %mdsplot: call ufopen xshare_build.dat %mdsplot: MDSplus controls cleared, server set to local. mds_conopn: option = 4 4250919 TRANSP_ST40 ...connecting to server: TRANSPGRID.PPPL.GOV ...tcl("EDIT TRANSP_ST40/SHOT=4250919") dmg_datbuf_expand call from dmgini_sized: isize= 0 ... reading NetCDF header data ... cdfhrd: size(time) = 2048 cdfhrd: size(time3) = 2048 MDS 1D Put OK MDS 2D Put OK MDS MG Put OK open 00425I19_nubeam_init.dat add_file: 171 lines - 80 delete node .TRDATA tcl("write") ...mdsplot: normal exit. ==========(runtrx)====================== ==========TRANSP finish and cleanup===== date: Mon Jan 27 22:30:23 EST 2025 ( mccune001.pppl.gov ) ==========(runtrx)====================== %finishup -I- pppl.gov production run %finishup: copying TRANSP permanent output files to /u/tr_xzhang/transp/result/ST40.24 acsort.py: No match. mv 00425I19.CDF /u/tr_xzhang/transp/result/ST40.24/00425I19.CDF mv 00425I19ex.for /u/tr_xzhang/transp/result/ST40.24/00425I19ex.for mv 00425I19FPPRF.DATA /u/tr_xzhang/transp/result/ST40.24/00425I19FPPRF.DATA mv 00425I19_glf23.nml /u/tr_xzhang/transp/result/ST40.24/00425I19_glf23.nml mv 00425I19_nubeam_init.dat /u/tr_xzhang/transp/result/ST40.24/00425I19_nubeam_init.dat mv 00425I19PH.CDF /u/tr_xzhang/transp/result/ST40.24/00425I19PH.CDF mv 00425I19_pt.nml /u/tr_xzhang/transp/result/ST40.24/00425I19_pt.nml mv 00425I19TR.DAT /u/tr_xzhang/transp/result/ST40.24/00425I19TR.DAT mv 00425I19TR.INF /u/tr_xzhang/transp/result/ST40.24/00425I19TR.INF %finishup: retaining 00425I19tr.log mv 00425I19TR.MSG /u/tr_xzhang/transp/result/ST40.24/00425I19TR.MSG mv 00425I19.yml /u/tr_xzhang/transp/result/ST40.24/00425I19.yml rm: No match. %finishup -I- both the GRID and the PPPL flags are set. /l/transpgrid/pshare/qshare/00425I19_ST40.qarc status 0 ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Mon Jan 27 22:30:26 EST 2025 ( mccune001.pppl.gov ) ==========>runtrx runsite = pppl.gov<======